Ripac Subrack And MPS Solutions For...

Rittal Ripac Subracks And Systems For CompactPCI Applications.

® PERFECT COMPACTPCI SYSTEM SOLUTIONS FROM RITTAL. . . THE ORIGINAL COMPA

Ripac Packaging Revolution. how did we get there? With

Rittal Ripac has literally set the standard years of dedication to listening for CompactPCI packaging solutions. From to our customers and their maximum airflow design subracks and ever-changing requirements, high pin count connector, self-locking as well as keeping pace with CompactPCI insertion/extraction handles today’s emerging technologies. to advanced features like front-panel EMC Worldwide Standards.

and ESD, a microswitch for full hot swap In fact, we were right there at the beginning of this electronic and keying of PCB slot positions. The packaging revolution. That’s why no one offers more experience in innovation is non-stop. CompactPCI. The Ripac team is fully engaged in the research, Rittal offers a comprehensive line of design, evaluation and implementation of industry-wide electronic packaging solutions. And specifications. These include IEC, IEEE, VITA, VIPA, PICMG, 1 ACTPCI COMPANY.

T ABLE OF CONTENTS

CompactPCI System Configurations...... Pages 7-16

PCB Front Panels, And Injector/Extractor Handles ...... Pages 17-26

RiCool Hot Swappable System Blowers ...... Pages 27-32

RiTherm Analysis Software ...... Pages 33-34

Modular CompactPCI Backplanes ...... Pages 35-52

CompactPCI Power Supplies ...... Pages 53-61

Technical Data ...... Pages 62-67

and more. It is through this involvement that we are able to design Second, the superiority of the mechanical packaging for industrial systems that meet the most significant standards. and telecommunication applications is superior to the industrial PC. Why CompactPCI? And here, Rittal is taking a leading role not only in defining and executing these standards, but applying them to our comprehensive There is tremendous excitement through the industry about line of subrack systems and components. CompactPCI. CompactPCI is not really an invention of something altogether new, rather it represents the combination of three From maximum airflow subracks, modular backplanes and power essential architectures: PCI, the 2mm connector system and the supplies to front panels, handles and cooling solutions, Rittal Ripac expanded “Eurocard” packaging system. CompactPCI continues to has the perfect solution for your growing CompactPCI requirements. be a growing trend within the industry for two reasons. First, the software executed on personal computers can be used as is with CompactPCI because the electrical and logic layers of the PCI CompactPCI is a registered trademark of PICMG® local bus in these PCs are exactly the same. Rittal Corporation reserves the right to improve, alter or cancel any of its product line. 2 RITTAL RIPAC COMPACTPCI SYSTEMS... SETTING NEW INDUSTRY

Pure Rittal Ripac Innovations

CompactPCI Injector/Extractor Handles & Front Panels Modular Backplanes

• CPCI injector/extractor self-locking handles • 3U and 6U - 2 up to 8 slot • CPCI compatible Telecom handle • 32-, 64-bit and H.110 bus backplanes • Embedded microswitch for full hot swap • Power management on the bottom • Tying pin for double, triple, etc. width • Rear backplane pluggable bridges • EMC and non-EMC front panels • Pluggable PSU backplanes and custom CPCI backplanes

RiCool Supercool Blowers Pluggable Power Supplies

• 2 per 19” system at 110cfm each • 3U pluggable power supplies • Hot swappable • 6U pluggable power supplies • No mechanical chassis required • Pluggable power supply backplanes • 1U high (43mm) • Open frame power supplies • Available: 12V, 24V, 48V • ATX power supply • Alarm via speed sensor and high pressure blower

3 Y STANDARDS.

CompactPCI Standards And Specifications. PICMG 2.9 SMBus Extensions For CompactPCI ted, and will define how the PCI As a global innovator, Rittal realizes the importance of adhering to This draft specification is just getting star worldwide standards such as CompactPCI and IEEE. In fact, we have SIG’s System Management Bus (SMBus) can be adapted to ds directly into the built the implementation of these standar CompactPCI type applications - including hot swap. development of our Ripac products. The following is a summarizedveloped list of the associated CompactPCI specifications being de PICMG 2.10 Backplane And Front Panel Keying under the auspices of the PICMG Technical Committee. This draft standard will summarize the assignment of the CompactPCI backplane J1/P1 and J4/P4 connectors keys, and also special Specifications assignment of the front panel keys defined in IEEE 1101.10. PICMG 2.0, R2.1 CompactPCI PICMG 2.11 Power Interface Spec. faces, and minimum This is the core CompactPCI specification that defines the mechanical This draft defines the electrical and mechanical inter structure, plus pin assignments of the PCI electrical layer to the 2mm requirements for modular CompactPCI pluggable power supplies. e provided to support a connector system. Additional specifications ar ficial complete CompactPCI base system. Revision 2.1 is the second of Standards release of this specification. IEEE 1101.1* PICMG 2.1 Hot Swap IEEE Standard for Mechanical Core Specifications for Microcomputers This draft specification is still under development and defines the using IEC 60603-2 connectors. e mechanisms for hot swapping (live This standard makes reference to: electrical, mechanical and softwar ds in a live system. insertion and live withdrawal) of CompactPCI boar t • IEC 60297-3 The draft specification will also define how to build systems to suppor • IEC 60297-4 dynamic configuration and how to build high-availability systems. • EIA 310-D PICMG 2.2 VME64x IEEE 1101.10* A 1.1-199x) bused ocomput- This draft specification maps all the VME64x (VIT IEEE Standard for Additional Mechanical Specifications for Micrd makes signal lines to the 2mm connector systems, CompactPCI J4/P4 and J5/ ers using the IEEE 1101.1 equipment practice. This standar P5 connectors. The definition will provide bridging between VME64x reference to: boards and CompactPCI boards in a single CompactPCI slot. A single • IEC 60297-3 ovide slots for both VME64x monolithic backplane can be built that will pr • IEC 60297-4 and CompactPCI boards. • IEC 60297-5-1xx (Draft) • IEC 61587-1 (Draft) PICMG 2.3 PMC On CompactPCI • IEC 61587-3 (Draft) This draft specification provides several ways of mapping the PMC (IEEE -defined connectors on P1386.1) 64-pin J4 I/O connector to the user IEEE 1101.11* CompactPCI backplanes. IEEE Standard for Mechanical Rear Plug-in Units Specifications for Microcomputers using IEEE 1101.1 and IEEE 1101.10 equipment PICMG 2.4 IP On CompactPCI y practice. This standard makes reference to: This draft specification provides several ways of mapping-defined an connectors Industr • IEC 60297-3 Pack (VITA 4-1996) 50-pin I/O connector to the user • IEC 60297-4 on CompactPCI backplanes. • IEC 60297-5-1xx (Draft) • IEC 61587-1 (Draft) PICMG 2.5 Computer Telephony e specification to • IEC 61587-3 (Draft) This draft specification adapts CompactPCI cor computer telephony type applications along with pin assignments of the IEC 61076-4-101 H.110 (TDM) bus defined by ECTF. Connectors with assessed quality, for use in d.c. low-frequency analogue PICMG 2.6 PCI-to-PCI Bridge for CompactPCI and digital high speed applications. Part 4: Printed board connectors This draft specification defines the bridging of two CompactPCI local t connector modules having buses in a single slot. The A bus is defined on the J1/P1 and J2/P2 Section 101: Detail specification for two-par ds and backplanes in accordance connectors (normal CompactPCI) and the B bus is defined on the J4/P4 a basic grid of 2mm for printed boar and J5/P5 connectors. with IEC 60917. PICMG 2.7 Dual CompactPCI Backplane VITA 30 2mm Connector for Euroboard Systems. Draft. This draft specification defines how two independent CompactPCI bus Difference Between Standards And Specifications segments can be built in a 6U form factor. The lower bus (A bus) is d or a The common practice of referring to a document as a standar defined for the J1/P1 and J2/P2 connectors and the upper bus (B bus) is ganization is supporting the specification depends upon which or defined on the J4/P4 and J5/P5 connectors. document. If a document is supported by IEEE, ANSI, IEC and other PICMG 2.8 PXI (PCI Extensions For Instrumentation) officially sanctioned, standard-setting organizations, it is called a This draft specification adapts CompactPCI for instruments in a fashion standard. If a document is supported by an independent trade similar to the way that VMEbus was extended to VXI (VME Extensions for association or special interest group (such as PCI SIG, PICMG or ECTF), Instrumentation). The core CompactPCI architecture is the basis for this it is referred to as a specification. definition. *Note: All 3 IEEE standards mentioned must be used in conjunction.

e information, please visit www.picmg.org, www.ieee.org, www.iec.ch or www.vita.com These standards and specifications are current as of the printing of this catalog. For mor

4 RITTAL RIPAC COMPACTPCI SYSTEMS OFFER. . . REAL ADVANCEMENTS.

1 RiCool Supercool Blower Nothing will cool your CompactPCI systems like the supercooling, hot swappable new RiCool blower assemblies. These compact blowers deliver 110cfm each at 70% efficiency (versus 20% when using muffin fans) in only a 1U form factor.

2 Self-Locking Extractor Handle Rittal offers the original proven CompactPCI injector/extractor, self-locking handle with tying pin. (see advancement # 9).

3 Telecom Extractor Handle For telecommunication applications, Rittal Ripac features a CompactPCI Telecom injector/ extractor handle with all the features of the original proven CompactPCI handle and more. (See advancements # 2 & # 9).

4 Keying System Rittal’s CompactPCI front and rear mounted board keying mechanism can handle 4096 keying combinations and is available in two colors. 7 5 Alignment Pin To provide for board front panel ESD and ground contact, take a look at our CompactPCI alignment pin that aligns front and rear mounted boards. Note: The filler panel alignment screw will prevent front panel stack-up pressure.

6 ESD Clip Rittal’s electrostatic discharge clip for CompactPCI protects boards against unwanted discharge.

7 Solder Side Covers Ripac UL 94-VO antistatic solder side covers (backside covers) prevent accidental contact of conductive components with neighboring boards. Available in solid and perforated versions.

8 EMC Gaskets Rittal’s new gasketing solution has been tested up to 5GHz and helps provide for board and system 2 front panel electromagnetic protection.

9 Full Hot Swap Microswitch The new injector/extractor handle from Rittal offers an embedded microswitch for full hot swap applications. 5 1

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10 Mis-Insertion Protection Guide Rail The Ripac board guide rail is suitable for 1.6mm to 2.5mm PCBs with a board anti-vibration feature.

11 Red System/Green PSU Guide Rail The red system slot guide rail (includes a PCB mis-insertion barrier) defines the CompactPCI system slot. The green guide, with a 6.61mm offset, is for pluggable power supplies.

12 Maximum System Airflow Design Ripac subracks feature maximum airflow design for increased RiCool blower performance.

13 Ultra-Quiet Backplane Design To help get you quickly on the way with CPCI, our modular backplane series features hot swappable backplanes, pluggable power supply backplanes and backplanes with H.110 bus.

14 Pluggable Power Supply Innovative CompactPCI pluggable power supplies are N+1 redundant and hot swappable.

15 Drive Chassis Our CompactPCI systems feature a range of drive chassis to accept 5 1/4” and 3 1/2” drives and CD-ROMs.

16 Innovative Product Range Technically proven CompactPCI packaging solutions from the Original CompactPCI Packaging Company...Rittal. And there is more innovation to come. Take a look inside for more revolutionary Ripac products.

6 Rittal Ripac CompactPCI Systems... MUFFIN FAN COOLED.

In order to accommodate a variety of application requirements, Rittal Ripac has designed numerous configurations to best meet your needs.The system configuration models shown below indicate typical CompactPCI solutions available with short delivery times. For modified or custom solutions, please contact 1-800-35RIPAC.

S YSTEM MODEL AA S YSTEM MODEL BB Suitable for 3U x 160mm CPCI boards, flush Suitable for 6U x 160mm CPCI boards, flush, and 3U x 160mm CPCI boards or PSUs

Configuration: Technical Specifications: Configuration: Technical Specifications: Mechanical Model AA Height: 4U Mechanical Model BB Height: 7U Part No. 3687801 Usable width: 42 HP Part No. 3687802 Usable width: 42 HP Options to complete system model: Overall depth: 285mm Options to complete system model: Overall depth: 285mm • Backplane Max CPCI slots: 8 (@ 4 HP) • Backplane Max CPCI slots: 8 (6U) + 6 (3U) • Power supply Cooling: forced air, muffin fan • Power supply Cooling: forced air, muffin fan • Drive chassis Service: front/rear panel cut-outs • Drive chassis Service: front/rear panel cut-outs • EMC gasketing • EMC gasketing • Rear mounting brackets • Rear mounting brackets

Note: You will receive a new Part No. for a fully assembled, Note: You will receive a new Part No. for a fully assembled, wired and tested system inclusive of all your option choices. wired and tested system inclusive of all your option choices.

S YSTEM MODEL CC S YSTEM MODEL DD Suitable for 3U x 160mm CPCI boards, flush Suitable for 6U x 160mm CPCI boards, flush

Configuration: Technical Specifications: Configuration: Technical Specifications: Mechanical Model CC Height: 4U Mechanical Model DD Height: 7U Part No. 3687803 Usable width: 84 HP @ 19” Part No. 3687804 Usable width: 84 HP @ 19” Options to complete system model: Overall depth: 345mm Options to complete system model: Overall depth: 405mm • Backplane Max CPCI slots: 21 (@ 4 HP) • Backplane Max CPCI slots: 21 (@ 4 HP) • Power supply Cooling: forced air, muffin fan • Power supply Cooling: forced air, muffin fan • Drive chassis Service: front/rear panel cut-outs • Drive chassis Service: front/rear panel cut-outs • EMC gasketing • EMC gasketing • Recessed 19” mounting brackets • Recessed 19” mounting brackets

Note: You will receive a new Part No. for a fully assembled, Note: You will receive a new Part No. for a fully assembled, wired and tested system inclusive of all your option choices. wired and tested system inclusive of all your option choices.

7 S YSTEM MODEL EE S YSTEM MODEL FF Suitable for 3U x 160mm CPCI boards, flush Suitable for 6U x 160mm CPCI boards, flush, and 3U x 80mm rear I/O boards, flush and 6U x 80mm rear I/O boards, flush

Configuration: Technical Specifications: Configuration: Technical Specifications: Mechanical Model EE Height: 6U Mechanical Model FF Height: 6U Part No. 3687805 Usable width: 84 HP @ 19” Part No. 3687806 Usable width: 84 HP @ 19” Options to complete system model: Overall depth: 298mm Options to complete system model: Overall depth: 298mm • Backplane Max CPCI slots: 2-21 (@ 4 HP) • Backplane Max CPCI slots: 21 (@ 4 HP) • Power supply Cooling: forced air, muffin fan • Power supply Cooling: forced air, muffin fan • Drive chassis Service: front/rear panel cut-outs • Drive chassis Service: front/rear panel cut-outs • EMC gasketing • EMC gasketing • Front 19” mounting brackets • Recessed 19” mounting brackets Note: You will receive a new Part No. for a fully assembled, Note: You will receive a new Part No. for a fully assembled, wired and tested system inclusive of all your option choices. wired and tested system inclusive of all your option choices.

S YSTEM MODEL GG S YSTEM MODEL HH Suitable for 6U x 160mm CPCI boards, flush Suitable for 6U x 160mm CPCI boards, flush and 6U x 80mm rear I/O boards, recessed and 6U x 80mm rear I/O boards, recessed

Configuration: Technical Specifications: Configuration: Technical Specifications: Mechanical Model GG Height: 4U Mechanical Model HH Height: 7U Part No. 3687807 Usable width: 84 HP @ 19” Part No. 3687808 Usable width: 84 HP @ 19” Options to complete system model: Overall depth: 358mm Options to complete system model: Overall depth: 358mm • Backplane CPCI slots: 5 (@ 4 HP) • Backplane Max CPCI slots: 7 (@ 4 HP) • Power supply Cooling: forced air, muffin fan • Power supply Cooling: forced air, muffin fan • Drive chassis Service: front/rear panel cut-outs • Drive chassis Service: front/rear panel cut-outs • EMC gasketing • EMC gasketing • Recessed 19” mounting brackets • Recessed 19” mounting brackets Note: You will receive a new Part No. for a fully assembled, Note: You will receive a new Part No. for a fully assembled, wired and tested system inclusive of all your option choices. wired and tested system inclusive of all your option choices.

8 S YSTEM MODEL JJ S YSTEM MODEL KK Suitable for 6U x 160mm CPCI boards, recessed Suitable for 6U x 160mm CPCI boards, recessed and 6U x 80mm rear I/O boards, flush

Configuration: Technical Specifications: Configuration: Technical Specifications: Mechanical Model JJ Height: 9U Mechanical Model KK Height: 9U Part No. 3687809 Usable width: 84 HP @ 19” Part No. 3687810 Usable width: 84 HP @ 19” Options to complete system model: Overall depth: 304mm Options to complete system model: Overall depth: 345mm • Backplane Max CPCI slots: 21 (@ 4 HP) • Backplane Max CPCI slots: 21 (@ 4 HP) • Power supply Cooling: forced air, muffin fan • Power supply Cooling: forced air, muffin fan • Drive chassis Service: front/rear panel cut-outs • Drive chassis Service: front/rear panel cut-outs • EMC gasketing • EMC gasketing • Recessed 19” mounting brackets • Recessed 19” mounting brackets Note: You will receive a new Part No. for a fully assembled, Note: You will receive a new Part No. for a fully assembled, wired and tested system inclusive of all your option choices. wired and tested system inclusive of all your option choices.

S YSTEM MODEL LL S YSTEM MODEL MM Suitable for 6U x 160mm CPCI boards, flush Suitable for 6U x 160mm CPCI boards, flush and 6U x 80mm rear I/O boards, flush

Configuration: Technical Specifications: Configuration: Technical Specifications: Part No. 3687811 Height: 14U Part No. 3687812 Height: 7U Mechanical Model LL Usable width: 84 HP @ 19” Mechanical Model MM Usable width: 84 HP @ 19” Options to complete system model: Overall depth: 350mm Options to complete system model: Overall depth: 358mm • Backplane Max CPCI slots: 21 (@ 4 HP) • Backplane Max CPCI slots: 21 (@ 4 HP) • Power supply Cooling: forced air, muffin fan • Power supply Cooling: forced air, muffin fan • Drive chassis Service: front/rear panel cut-outs • Drive chassis Service: front/rear panel cut-outs • EMC gasketing • EMC gasketing • Recessed 19” mounting brackets • Recessed 19” mounting brackets Note: You will receive a new Part No. for a fully assembled, Note: You will receive a new Part No. for a fully assembled, wired and tested system inclusive of all your option choices. wired and tested system inclusive of all your option choices.

9 System Accessories

CompactPCI Backplanes Ripac Modular CompactPCI Backplanes The Ripac range of modular CompactPCI • 3U CPCI backplanes, see pages 38-42 backplanes has the following features: • 6U CPCI backplanes, see pages 42-47 • All Ripac modular CPCI backplanes feature • Backplane rear mounted bridges, an extra 1/2U for power connection manage- see page 52 ment on the bottom. (H.110 + 1U) • Pluggable PSU backplanes, • All Ripac modular (master) CPCI backplanes see pages 49-51 contain between 2 to 8 slots and operate in stand-alone mode with a CPU and a PSU • 6U CPCI backplanes with J4/P4 H.110 and are hot swap compatible. bus, see page 47 • To build larger systems, multiple backplanes Note: For custom CompactPCI backplanes, may be linked together using rear mounted please inquire. PCI bridge modules. A bridge module drives the bus of the remaining modules (now slave modules).

CompactPCI Power Supplies Ripac CompactPCI Power Supplies Rittal offers high-performance power supplies • 3U pluggable power supplies, for use in CompactPCI computer, test and see page 57 measurement, industrial automation • 6U pluggable power supplies, and telecom systems. They meet all of the see pages 55 and 58 requirements of the PICMG CompactPCI specification plus N+1 redundant and • Open frame power supplies, hot swap applications. LED status indicators see pages 59-60 are located on the front panel. 6U x 8 HP x Note: For other PSUs, please inquire and 160mm form factor. state the input and output requirements.

CompactPCI Drive Chassis Ripac Drive Chassis There are two types of drive chassis available • 3U pluggable (V) drive chassis, see page 26 which will accept 5 1/4” HH drives, CD-ROMs • 4U pluggable (V) drive chassis, see page 26 and 3 1/2” drives: • 6U pluggable (V) drive chassis, see page 26 • 3U vertically (V) mounted drive chassis • 2U pluggable (H) drive chassis, • 4U vertically (V) mounted drive chassis see pages 24-25 • 6U vertically (V) mounted drive chassis Note: Always submit the mechanical • 2U horizontally (H) mounted drive chassis specification sheet of the drive to be installed into the drive chassis.

CompactPCI System Model Cooling Ripac System Cooling System Models AA to MM are equipped System Fan AC DC with 119 x 119mm (4.69” x 4.69”) or 80 Model Qty. cfm1 dBa2 W3 cfm1 dBa2 W3 x 80mm (3.15” x 3.15”) muffin fans to AA/BB 2 210 56 36 200 50 11 provide for forced air cooling. When CC/DD/FF/MM 3 315 58 45 300 52 17 ordering System Models AA to MM, please state if 115V-AC or 12V-DC fans EE/LL 8 272 50 88 224 42 18 (with or without temperature dependent JJ/KK 4 136 49 44 112 42 8.8 speed control) are required. For other GG 1 34 44 11 28 36 2.2 fans, please inquire. HH 1 105 53 18 100 47 5.4 Note: 1cfm free blowing only. Due to the low static pressure 0.3” H2O of these fans, the system performance efficiency is only approx. 20% to 30%. 2dBA is approx. System dBA with installed fans. 3W is maximum system fan wattage.

CompactPCI Electromagnetic Shielding Ripac Electromagnetic Shielding Test Data Provision 100 All system models are designed with EMC 80 shielding in mind. Improved contacting is achieved through EMC gaskets. When 60

ordering these system models, please state (dB) 40 whether EMC gaskets are to be used. Otherwise, for cost reasons, these system 20 models are not equipped with EMC gaskets. 0 10100 1000 10000 The 5GHz test was undertaken with EMC Frequency(MHz) gaskets installed. See page 62. Note: Tests up to 5GHz have been undertaken. 10 Rittal Ripac CompactPCI Systems... RICOOL SUPERCOOLED.

In order to accommodate differing application requirements, Rittal Ripac has designed numerous configurations to best meet your needs.The system configuration models shown below indicate typical CompactPCI solutions available with short delivery times. For modified or custom solutions, please contact 1-800-35RIPAC.

S YSTEM MODEL NN S YSTEM MODEL PP Suitable for 6U x 160mm CPCI boards, flush Suitable for 6U x 160mm CPCI boards, flush (with two fixed RiCool supercool blowers) and for 6U x 80mm, rear I/O boards, flush (with two hot swap RiCool supercool blowers)

Configuration: Technical Specifications: Configuration: Technical Specifications: Mechanical Model NN Height: 8U Mechanical Model PP Height: 9U Part No. 3687301 Usable width: 84 HP @ 19” Part No. 3687302 Usable width: 84 HP @ 19” Options to complete system model: Overall depth: 291mm Options to complete system model: Overall depth: 312mm • Backplane Max CPCI slots: 21 (@ 4 HP) • Backplane Max CPCI slots: 2 x 8 (@ 4 HP) • Power supply Cooling: 2 RiCool blowers • Power supply Cooling: 2 RiCool blowers • Drive chassis Service: front/rear panel cut-outs • Drive chassis Service: front/rear panel cut-outs • EMC gasketing • EMC gasketing • Recessed 19” mounting brackets • Recessed 19” mounting brackets Note: You will receive a new Part No. for a fully assembled, Note: You will receive a new Part No. for a fully assembled, wired and tested system inclusive of all your option choices. wired and tested system inclusive of all your option choices. ␣␣␣␣␣␣␣ S YSTEM MODEL RR SYSTEM MODEL S S Suitable for 6U x 160mm CPCI boards, recessed Suitable for 6U x 160mm CPCI boards, flush (with two hot swap RiCool supercool blowers and and for 6U x 80mm, rear I/O boards, flush slim line hard disk space on the top) (with two hot swap RiCool supercool blowers and increased air management plenum)

Configuration: Technical Specifications: Configuration: Technical Specifications: Mechanical Model RR Height: 10U Mechanical Model SS Height: 10U Part No. 3687827 Usable width: 84 HP @ 19” Part No. 3687498 Usable width: 84 HP @ 19” Options to complete system model: Overall depth: 258mm Options to complete system model: Overall depth: 312mm • Backplane CPCI slots: 21 (@ 4 HP) • Backplane Max CPCI slots: 21 (@ 4 HP) • Power supply Cooling: 2 RiCool blowers • Power supply Cooling: 2 RiCool blowers • Drive chassis Service: front/rear panel cut-outs • Drive chassis Service: front/rear panel cut-outs • EMC gasketing • EMC gasketing • Recessed 19” mounting brackets • Recessed 19” mounting brackets Note: You will receive a new Part No. for a fully assembled, Note: You will receive a new Part No. for a fully assembled, wired and tested system inclusive of all your option choices. wired and tested system inclusive of all your option choices.

11 System Accessories

CompactPCI Backplanes Ripac Modular CompactPCI Backplanes The Ripac range of modular CompactPCI • 3U CPCI backplanes, see pages 38-42 backplanes has the following features: • 6U CPCI backplanes, see pages 42-47 • All Ripac modular CPCI backplanes feature • Backplane rear mounted bridges, an extra 1/2U for power connection manage- see page 52 ment on the bottom. (H.110 + 1U) • Pluggable PSU backplanes, • All Ripac modular (master) CPCI backplanes see pages 49-51 contain between 2 to 8 slots and operate in stand-alone mode with a CPU and a PSU • 6U CPCI backplanes with J4/P4 H.110 and are hot swap compatible. bus, see page 47 • To build larger systems, multiple backplanes Note: For custom CompactPCI backplanes, may be linked together using rear mounted please inquire. PCI bridge modules. A bridge module drives the bus of the remaining modules (now slave modules).

CompactPCI Power Supplies Ripac CompactPCI Power Supplies Rittal offers high-performance power supplies • 3U pluggable power supplies, for use in CompactPCI computer, test and see page 57 measurement, industrial automation • 6U pluggable power supplies, and telecom systems. They meet all of the see pages 55 and 58 requirements of the PICMG CompactPCI • Open frame power supplies, specification plus N+1 redundant and see pages 59-60 hot swap applications. LED status indicators are located on the front panel. 6U x 8 HP x Note: For other PSUs, please enquire and 160mm form factor. state the input and output requirements.

CompactPCI Drive Chassis Ripac Drive Chassis There are two types of drive chassis available • 3U pluggable (V) drive chassis, see page 26 which will accept 5 1/4” HH drives, CD-ROMs • 4U pluggable (V) drive chassis, see page 26 1 and 3 /2” drives: • 6U pluggable (V) drive chassis, see page 26 • 3U vertically (V) mounted drive chassis • 2U pluggable (H) drive chassis, • 4U vertically (V) mounted drive chassis see pages 24-25 • 6U vertically (V) mounted drive chassis Note: Always submit the mechanical • 2U horizontally (H) mounted drive chassis specification sheet of the drive to be installed into the drive chassis.

System Model Cooling RiCool at full speed These systems are equipped with System Fan 12V DC 24V DC 48V DC 1 2 3 1 2 3 1 2 3 special Rittal designed RiCool Model Qty. cfm dBa W cfm dBa W cfm dBa W NN 2 220 61 96 220 61 96 220 61 96 brushless blowers. These powerful PP 2 220 61 96 220 61 96 220 61 96 blowers are front removable (hot swap) RR 2 220 61 96 220 61 96 220 61 96 and are recommended to run on only SS 2 220 61 96 220 61 96 220 61 96 3/4 speed (under 55dBA). RiCool at 3/4 speed with speed control Note: For rear I/O board cooling, the NN 2 180 52 (96) 180 52 (96) 180 52 (96) PP 2 180 52 (96) 180 52 (96) 180 52 (96) blower exhaust air speed is taken RR 2 180 52 (96) 180 52 (96) 180 52 (96) advantage of by a special air suction SS 2 180 52 (96) 180 52 (96) 180 52 (96) baffle plate that will remove approxi- Note: 1 This is total cfm free blowing/system. Due to the high static pressure, the RiCool blowers is 1.6” H2O, the system performance efficiency is 70%. mately 10W per I/O board. 2 dBA is approximate. System dBA with installed fans. 3 W is total system fan wattage.

CompactPCI Electromagnetic Shielding Ripac Electromagnetic Shielding Test Data Provision 100

All system models are designed with EMC 80 shielding in mind. Improved contacting is achieved through EMC gaskets. When 60

ordering these system models, please state (dB) 40 whether EMC gaskets are to be used. Otherwise, for cost reasons, these system 20 0 models are not equipped with EMC gaskets. 10100 1000 10000 The 5GHz test was undertaken with EMC Frequency(MHz) gaskets installed. See page 62. Note: Tests up to 5GHz have been undertaken.

12 Additional AA-SS System Accessories

CompactPCI Filler Panels Filler Panels Non-EMC Filler panels are used to cover unused slots to U Part No. ensure intended airflow management, 4 HP 8 HP 12 HP 16 HP increase safety and prevent EMI emission. 3 3684891 3684895 3684897 3687829 There are two types of filler panels available: 6 3684913 3684917 3684919 3687830 • 3U and 6U Non-EMC (flat w/o gasket) Please order screws and retention sleeves • 3U and 6U EMC (U-channel w/gasket) separately: Note: The alignment/retention screws for the Part No. 3658160 100 pieces - slotted EMC filler panels also provide for ground/earth Part No. 3684084 100 pieces + pozidrive contact. Filler Panels EMC See airflow management blocker below. U Part No. 4 HP 8 HP 12 HP 16 HP 3 3685178 3685182 3685184 3685373 6 3685186 3685190 3685192 3685453 Please order screws and retention sleeves separately: Part No. 3687050 100 pieces - slotted Part No. 3687051 100 pieces + pozidrive

CompactPCI Airflow Airflow Blocker Management Blocker Part No. 3687924 1 piece To prevent a chimney effect of unused Material: UL94VO “empty” slots in CompactPCI systems (where Color: blue the air is pulled over the PCBs), this airflow management blocking device can be plugged over the bottom and top guide rails of unpopulated slots. Easily insertable and removable–it just snaps into the guide rail. Ideal for CompactPCI systems equipped with RiCool supercool blower.

CompactPCI Guide Rails Standard CompactPCI Guide Rails To prevent metal shavings typically found with 1) CompactPCI standard guide rails, grey metal guide rails (which may effect sensitive Part No. 3684669 1 piece (2 min required) components mounted to the PCBs), these 2) System slot guide rails, red guide rails are made of plastic and can Part No. 3686063 1 piece (2 min required) accept 1.6mm up to 2.5mm thick PCBs. The guide rails have PCB anti-vibration pressure 3) Rear I/O guide rails, short, grey points and also can accept the PCB electro- Bottom: Part No. 3684670 (1 min required) static discharge clips as specified in the Top: Part No. 3685790 (1 min required) CompactPCI Specifications. Bolt-on screws are required: Part No. 3654360 100 pieces There are seven types of guide rails available: 1) CompactPCI front PCB guide rails with 4) Rear I/O guide, 80mm, grey w/o ESD and keying detail ground contact* Bottom: Part No. 3687937 (1 min required) 2) Red CompactPCI system slot guide rails Top: Part No. 3687936 (1 min required) 4 HP 3) CompactPCI rear mounted I/O module Rear guide rail retention screws (6.61) guide rails, short type Part No. 3684109 50 pieces 4.07 CPCI Standard 4) CompactPCI rear mounted I/O module 5) Rear I/O guide rail with ground contact, guide rails, 80mm type* 80mm, grey* Guide Rails 5) CompactPCI rear mounted I/O module Bottom: Part No. 3684108 (1 min required) guide rail with ground contact, 80mm type Top: Part No. 3684107 (1 min required) (IEEE 1101.11 clause 15)* Ground contact, top* 6) CompactPCI offset guide rail for pluggable Part No. 3687951 50 pieces power supply, green* Ground contact, bottom* 4 HP Part No. 3684106 50 pieces 7) Metal guide rails for pluggable drives CPCI PSU Off-Set (6.61) Guide rail/ground contact retention 4.07 screws* Guide Rail +2.57 * Check for availability of new, improved Part No. 3684109 100 pieces products. 6) CompactPCI power supply guide rail offset power supply guide rail, green* Part No. 3687832 (2 min required) 7) Drive unit metal support guide rails Keying Alignment/ chamber Part No. 3686989 (2 min required) ground pin socket For drive chassis, see page 24.

13 CompactPCI ESD Clips ESD Clips To provide for an Electrostatic Discharge PCB ESD Clips (ESD) provision when front or rear pluggable Part No. 3684204 50 pieces boards are inserted into a CompactPCI system, there are two types of ESD protection Front panel I/O ESD clips clips available: Part No. 3684205 50 pieces • Guide rail/PCB ESD clips • Front panel ESD clips See IEEE 1101.10 and PICMG 2.1 for PCB ESD discharge strip recommendation. Also see page 63 for additional technical information.

CompactPCI Keying Front Panel Keys The CompactPCI PICMG 2.10 specification The front and rear system mounted plug-in calls for two methods of keying: board front panel keys • The IEEE 1101.10 front panel keying Red keys Part No. 3684326 100 pieces suitable for front and rear mounted PCBs Grey keys Part No. 3684325 100 pieces (at 6U there are 4096 combinations). • The IEC 61076-4-101 connector keying suitable for front mounted PCBs.

CompactPCI Subrack System Divider 6U/2 x 3U System Divider This system divider splits 6U systems into 4 HP-1 slot Part No. 3687833 2 x 3U sections. Additional horizontal rails are 8 HP-2 slots Part No. 3687834 mounted either to the left or right side plates. Part No. 3687835 Please state the area to be divided, by 12 HP-3 slots placement (left or right) and by how many HP. For other widths, please inquire. Typically a CompactPCI front panel is 4 HP Note: Horizontal dividing above 3 slots wide, 4 x 5.08mm (0.2”). may require a vertical support at a loss of one slot.

CompactPCI Assembly Parts

To fasten Size (mm) Description Packs of Kit No. Horizontal rails to side plates and H/W dividers M4x12 Locking screw 100 3654300 Backplanes to horizontal rails M2.5x10 Pozidrive/washer 100 3684019 Guide rails to horizontal rails 2.26 Screw for plastic 100 3654360 Front/rear panels to subrack M2.5x11 Screw w/retention 100 3658160 Front/rear panels to subrack M2.5x12 Retention screw - 100 3687051 Front/rear panels to subrack M2.5x12 Retention screw + 100 3687050 PCB to PCB holder M2.5x8 Pozidrive 100 3654320

14 Component Parts, Kits and Custom Assemblies... PERFECT COMPACTPCI MEC Rittal offers the most advanced CompactPCI packaging solutions In addition, Rittal will ensure that your system is: complemented by the most flexible customization services. Worldwide our • CPCI compatible customers appreciate our technical solutions, our quality and our drive for • Fully wired perfection. • Burned in As the world’s leading manufacturer of enclosure solutions, Rittal provides • Tested the industry with solutions to future packaging requirements. These • All components are UL, CSA, TUV or CE approved preview pages demonstrate our ability to provide pre-configured systems that match your requirements. • Meets all approvals • Includes proprietary supercooled RiCool cooling system. Contact Rittal Rittal Ripac is set up just like a Lego Set — easy to build and customize. In at 1-800-35RIPAC for more information on front panel modification fact, Rittal’s custom CompactPCI systems are based on the Ripac range of services, custom system solutions, or to get your copy of our Ripac subracks, combined with various cooling options, a modular range of Perfection catalog that details our entire subrack line with many more CompactPCI backplanes, open frame or pluggable power supplies and a options (9U/10U/11U, etc.). wide range of drive chassis. So if the systems are not exactly what you require, let us help you build your own! Select the accessories that you need for your application and build your sophisticated CompactPCI system with our help.

15 CHANICS.

Modified CompactPCI Systems The picture to the right illustrates a typical customization of a basic CompactPCI system, using the RiCool supercool blower. This is a 9U CPCI system suitable for front mounted 6U x 160mm PCBs or rear mounted 6U x 80mm PCBs. Additional modified systems are also available as shown below.

Modified to a 13U CompactPCI system with additional hori- zontal mounted drives above the blower. Modified to a 10U CompactPCI Horizontal drives system with additional slim RiCool line horizontal 6U CPCI mounted drives above the blower.

Slim line drives

RiCool 6U CPCI Modified to a 14U CompactPCI system with enhanced airflow plenum and bottom mounted, hot swappable Modified to a 12U power supply. or 13U CompactPCI RiCool system with vertical mounted Air Plenum drives mounted above the blower. 6U CPCI

Vertical drives PSU RiCool 6U CPCI

Modified to a 12U CompactPCI system suitable for 9U front or front/ rear mounted Modified to a ?U boards. CompactPCI system. Add your RiCool sketch and Rittal will quote your 9U CPCI custom system.

16 PCB Front Panels & Injector/Extractor Handles... PERFECT HANDLING. Package Your Electronics With Ripac. When it comes to electronics, no one handles today’s demanding applications better than Rittal Ripac handles, front panels and accessories. Take our handles for instance. Rittal offers a wide range of types, including the CompactPCI specified self-locking injector/extractor handle for high pin count applications and the Type VII flush profile Telecom handle for limited I/O. What’s more is we can provide advanced features, such as front panel and ESD protec- tion, a microswitch for full hot swap applications, keying with 4096 combinations and drive chassis. Add to that a whole line of 3U/6U EMC and Non-EMC front panels and your package is complete—more solutions from The Original CompactPCI Company.

17 R ITTAL RIPAC

CompactPCI Handles CompactPCI Type IV handles ...... Page 19 Telecom Type VII handles ...... Page 19

PCB Front Panels Keying ...... Page 20 CompactPCI PCB solder side covers ...... Page 20 Embedded microswitch assembly ...... Page 20

CompactPCI Front Panels EMC front panels ...... Page 21 Non-EMC front panels...... Page 21 Front panel layout dimensions ...... Page 22

CompactPCI Adapters Front panel adapters...... Page 23 Board adapters ...... Page 23

19” Vario Drive Chassis Horizontal drive chassis ...... Pages 24-25 Vertical drive chassis ...... Page 26

18 Perfect Handling Solutions With... COMPACTPCI HANDLES. CompactPCI Handle Solution, Type IV The Ripac CompactPCI injector/extractor handle referred to in the CompactPCI specification is designed to meet the IEEE 1101.10 and IEEE 1101.11 standards. This Ripac Type IV injector/extractor handle provides for full front panel I/O usage and is suitable for system (subrack) front and rear (I/O) mounted boards. The handle locking/ unlocking device activating in the handle’s embedded microswitch is a Ripac design feature. This solution complies nicely with the CompactPCI full hot swap requirements. Other features of this handle are: • Keying of plug-in PCB boards (4096 combinations) • ESD protection • Grounding connection for plug-in boards • Tying of multiple handles together CompactPCI Injector/Extractor Handle Single CompactPCI PCB slot width (4 HP) Grey bottom Part No. 3686900 1 piece Grey top Part No. 3686901 1 piece Black bottom Part No. 3686902 1 piece Black top Part No. 3686903 1 piece For double, triple and quadruple width, use additional tying pin: Part No. 3686935 1 piece

Telecom Handle Or Alternative Handle Solution, Type VII This injector/extractor handle solution has all the features of the IEEE 1101.10/1101.11 and CompactPCI requirements (with limited front panel I/O space) and is designed for systems (subracks) conforming to IEEE 1101.10 and IEEE 1101.11 standards. However, this handle has one more distinguishing feature: the solder side (component side 2) of the PCB can be optionally increased by 2.54mm (0.1”) to provide for more surface mounted component space (this additional feature cannot be implemented for CompactPCI). Suitable as pluggable power supply handle per PICMG Draft 2.11. Tying together of multiple handles also available. The Telecom Injector/Extractor Handle Black bottom Part No. 3686135 1 piece Black top Part No. 3686134 1 piece For double, triple and quadruple width, use additional tying pin: Part No. 3686935 Note: By mid 1999 there will be an all-metal version available dealing with yet higher injection and extraction forces. Please inquire for status.

Multiple Handle Tying CompactPCI applications which require multiple width front panels (8 HP, 12 HP, 16 HP) may also require multiple width injector/extractor handles. A precision pin will nicely gang these handles together. Part No. 3686935 1 piece B Handle Labeling A The most simple and cost effective method of labeling can be applied to both types of injector/extractor handles mentioned above. Labeling Just choose your own type of self adhesive label and have them made, printed on a roll or print these labels yourself by using a sophisticated Tying pin Bar Code printer. The CompactPCI handle label: 20mm width (4 HP) / 10mm length The Telecom handle label: 20mm width (4 HP) / 15mm or 31mm length

19 Keying Color Packs of Kit No. Board type plug-in unit alignment pin Grey 100 3684325 C F 7.6 B chamber, front panel E 2.4 Red 100 3684326 A I/O ESD or front D 2.4 2.1 Printed panel grounding Material: PBT socket board 4.4 Keying/programming (PCB) Position Position possibilities per 0.1 2 1 chamber (total 4096 Guide Programming key programming rail D A E PCB B Position Position possibilities at six keying chambers). F mis-insertion C 3 4 Horizontal See page 63 for more barrier rail keying information.

Key insertion tool Part No. 3687956* * available third quarter 1999. For front loaded CPCI boards Keying chamber For rear loaded CPCI boards

Optional Retention Screw Part No. 3685097 100 pieces Front panels with injector/extractor handles E may retain the pluggable boards in the system Lever Hinge 7.25 (2) Lever Contact Point by only using the self-locking feature of the 3.7 1 handle or by using retention screws. 2 3 3 2 1 Note: For EMC applications. When using these optional retention screws you may not need to 9.9 (6.6) (5.5) use the horizontal gasketing mounted to the 8.5 subrack system front/rear horizontal rails. Optional Retention Screws

CompactPCI PCB Solder Side Solder side covers, not UL but anti-static/ Retention clip non-conductive 0.3mm thick. Covers For Hot Swap (see page 65 for material specifications) The CompactPCI specification for full hot swap Size Solid Part No. calls out for two types of ESD protection: 6U x 160mm 3685967 1 piece 6U x 80mm 3686037 1 piece 1. The ESD strips on the PCB (see 3U x 160mm 3685966 1 piece CompactPCI hot swap specifications). 2. The use of ESD covers on the “rear side of Solder side covers, UL 94-VO anti-static/ the boards.” (The “rear side” is also called non-conductive 0.5mm thick. the “component side 2” or “backside”). Size Perforated Solid The solder side cover will prevent accidental Part No. Part No. contact of conductive components with 6U x 160mm 3687934 3686574 1 piece neighboring boards. The material is of an anti- 6U x 80mm 3687933 3686573 1 piece Retention clip static and non-conductive nature. Hot spots on 3U x 160mm 3687932 3686572 1 piece the PCB component side 2 may require vent Retention clip Part No. 3687955 100 pieces holes in the area of the hot spot (see perfo- rated version). Note: The perforation is 2mmØ at a 10mm pitch. The 2mm connector pins are covered The required mounting hole sizes and positions as well. are defined in the IEEE 1101.11 standard and the CompactPCI specifications. See page 65 for more details.

X 2:1 Ripac Products For Hot Swap The Embedded Microswitch Applications Cable Assembly E Lever Hinge 7.25 Suitable for CompactPCI and other hot May be inserted into both the CompactPCI (2) Lever Contact Point 3.7 swap applications using a front panel and the Telecom handle. Microswitch 1 assembly includes: 2 injector/extractor handle operated device. 3 3 2 1 • Microswitch • 3 wires, 25mm x # 32 AWG Note: The required blue LED on the front • Plug • Retention clip 9.9 (6.6) panel is not offered and may be obtained (5.5) otherwise. Part No. 3686536 (1 assembly) 8.5 The PCB mounted header may be a through

Le 3 Microswitch Technical Data. hole mounted header or a surface mounted 3 no 2 Ratings: 30V DC, 5-50mA, resistive load (30,000 cycles) header. 2 1 60V DC, 5mA, resistive load (30,000 cycles) 1 Through hole mounted header 60V DC, 500mA, resistive load (15,000 cycles) ~25mm Lever H Operating Part No. 3686537 1 piece Temp. -13°F (25°C) to + 158°F (+70°C) Surface mounted header 2 Humidity: RH 85% max 1-2 Microswitch lever Part No. 3686541 1 piece pushed down: injector/ Vibration: 10Hz to 55Hz, 18g extractor handle in Shock: 30g, 11msec Note: Minimum quantity is 10 pieces. locked position. 1-3 Microswitch lever not pushed down: injector/ extractor handle un- 1 locked.

20 Smart Protection With Rittal... COMPACTPCI FRONT PANELS.

> 4 HP Non-EMC Front Panels For PCBs (Flat) 4 HP For Single Handles >4 HP U Part No. 4 HP 4 HP 8 HP 12 HP 16 HP 3 3685500 3685504 3685506 3687848 6 3685508 3685512 3685514 3687849 9 3685516 3685520 3685522 - Material: 2.5mm aluminum sheet 6U 6U Finish: anodized 1 HP=5.08mm (0.2”) 3U 3U EMC Front Panels For PCBs (U-Channel) For Single Handles

U Part No. 4 HP 8 HP 12 HP 16 HP For CPCI handles, see page 19. 3 3685524 3685528 3685530 3687838 For filler panels, see page 13. 6 3685532 3685536 3685538 3687839 Non-EMC (flat) EMC (U-channel) 9 3685540 3685544 3685546 - Material: 2.5mm aluminum extruded Finish: clear chromated

3U EMC Front Panel Kits With 6U EMC Front Panel Kits With 9U EMC Front Panel Kits With (Single) Type IV Handles (Single) Type IV Handles (Single) Type IV Handles Kit Includes: Kit Includes: Kit Includes: • U-channel front panel 1 piece • U-channel front panel 1 piece • U-channel front panel 1 piece • PCB holder 1 piece • EMC gasket 1 piece • EMC gasket 1 piece • EMC gasket 1 piece • Injector/ejector handle assembly • Injector/ejector handle assembly • Injector/ejector handle assembly 2 pieces, black 2 pieces, black 1 piece, black • Assembly parts • Assembly parts • Assembly parts Order optional PCB holders separately. Order optional PCB holders separately.

HP Packs of Kit No. HP Packs of Kit No. HP Packs of Kit No. 413684413 413684420 413684427 813684417 813684424 813684431 12 1 3684419 12 1 3684426 12 1 3684433

>4 HP ▲ ▲

▲ >4 HP Material ▲ ▲ removed EMC Front Panels For PCBs ▲ (U-Channel) For Multiple Handles

U Part No. 8 HP 12 HP 16 HP 6U 3 3687845 3687842 3687840

3U Non-EMC Front Panels For PCBs (Flat) 6 3687846 3687843 3687841 For Multiple Handles 9 3687847 3687844 - U Part No. Material: 2.5mm aluminum extruded

8 HP 12 HP 16 HP Finish: clear chromated ▲

▲ 3 3687855 3687852 3687850 6 3687856 3687853 3687851 When multiple handles are used, 9 3687857 3687854 - please lock the handles with the EMC Gaskets For EMC Front Panels tying pin. See page 19. Material: 2.5mm aluminum sheet Finish: anodized 1 HP=5.08mm (0.2”) U Part No. 1 piece Kit No. 10 pieces 3 3686975 3684238 6 3686977 3684240 9 3686979 3684243 Material: stainless steel

21 Front Panel Layout Dimensions

3U PCB Front Panels 6U And 9U PCB Front Panels

B1 (HP) 4 HP B4 2.3 Ø 20.02 - 02

B (HP) B1 4 HP 1 7.5±0.1 20.02 - 0.2 2.7 csk B2

7.5±0.1 2.3 Ø

0.1

±

20.5

3.5

23.6

0.1

±

0.1

0.1

±

0.1

±

0.1/ 356.7 0.1/

±

±

/ 356.7 /

-

122.5

94.5

112.85-0.3

94.5

128.7-0.3

0.1 / 9U = 389.2 = 9U / 0.1

±

0.1

2.6

6U = 223.35 = 6U

0.1

±

6U = 223.35 = 6U

±

6U = 262.05-0.3 / 9U = 395.4-0.3 = 9U / 262.05-0.3 = 6U

2.6+0.1

on PCB front end 3U=8130 end front PCB on

Maximum component space component Maximum

8.2+0.2

6U = 230.35-0.3 / 9U = 363.70-03 = 9U / 230.35-0.3 = 6U

on PCB front end 6U=214.5, 9U=347.5 6U=214.5, end front PCB on

Maximum component space component Maximum

3.5

3.5

0.1

6U = 255.85 = 6U

7.85

± 3.5

10±0.1 2.6+0.1

2.6+0.1 8.2+0.2

3.4±0.2 10.1±0.1 4.3

13.8±0.1 0.1 20.2±0.1 ±

3.1 10.0±0.1 0.1 ±

19.35 ± PCB PCB ± 3.4 0.2 10.1 0.1

component component ± 0.1 3.5 13.8 0.1 20.2±0.1 side side ±

3.92 3.92 3.1

PCB 19.35 PCB component component 3.92 side 3.92 side

PCB PCB Component Side HP U B B B B Tolerance Top View 1 2 3 4

2.5 X1 X2

4 3 6 9 20.02 - 18.05 - 0.20 0.20 ➔ Non-EMC Flat 5 3 6 9 25.10 - 23.13 - 0.20 0.20 Front Panel 6 3 6 9 30.18 - 28.21 - 0.25 0.20 7 3 6 9 35.26 - 33.29 - 0.25 0.20 B - X 1 2 8 3 6 9 40.34 - 38.37 - 0.25 0.20 10 3 6 9 50.50 35.56 48.53 43.06 0.25 0.20 12 3 6 9 60.66 45.72 58.69 53.22 0.25 0.20

PCB

0.15

6.2

2.54 2.5

3 PCB Holder ➔ EMC U-Channel To be used for 3U PCBs on Front Panel the top end and 6U PCBs in 1.0-0.1 2 1 the middle (optional). 3.92 Part No. 3685619 1 piece Front B + X1 Kit No. 3685198 10 pieces 3 panel PCB B - X1 1 Material: die cast aluminum

Note: An electronic file of these drawings is also available. Please contact Rittal.

22 Adapt Quickly With Rittal... COMPACTPCI ADAPTERS. Front Panel Adapters A typical application is when a 3U x 4 HP EMC plug-in unit is installed into a 6U system. This adapter kit provides for an additional 3U EMC filler front panel to be attached to the top end of the CPCI EMC front panel via a bracket. Part No. 3687098 Note: The top handle is optional.

Board Adapters A typical application is when two 3U CPU boards are on top of each other, creating a 6U board system, where the enviroment requires two times P1/J1-P2/J2 (typically two 3U 32-/64-bit CPCI boards in one slot). This kit provides for an adapter plate (FR4) to connect two CompactPCI boards to the front panel and solder side cover (back cover) mounting holes. A modified 6U front panel is required; please inquire for additional information. Part No. 3687471 Ø2.70 CSK 4 places 51.35 44.45 35.00

146.70

153.67 160.52 For assembly use 4xM2.5x6 CSK screws, 4xM2.5 nuts. See assembly parts below.

CompactPCI Assembly Parts To fasten Size (mm) Description Packs of Kit No. Horizontal rails to side plates and H/W dividers M4x12 Locking screw 100 3654300 Backplanes to horizontal rails M2.5x10 Pozidrive/washer 100 3684019 Guide rails to horizontal rails M2.26 Screw for plastic 100 3654360 Front/rear panels to subrack M2.5x11 Screw w/retention 100 3658160 Front/rear panels to subrack M2.5x12 Retention screw - 100 3687051 Front/rear panels to subrack M2.5x12 Retention screw + 100 3687050 PCB to PCB holder M2.5x8 Pozidrive + 100 3654320 Board adapter to PCB M2.5x6 Pozidrive CSK + 100 3685290 Board adapter to PCB M2.5 Nut hexagon 100 3658210

23 For 3 1/2” & 5 1/4” Drives & CD-ROMs... 19” VARIO DRIVE CHASSIS. The Ripac range of 19” Vario subracks was designed to house multiple horizontal 3 1/2“ and/or 5 1/4” height drive chassis. The drive chassis are defined on pages 25-26 and will accept the most popular sizes of hard drives (no cut out), tape drives, floppy disks, CD-ROMs, etc. The purpose of this subrack design is to provide a solution for a multiple drive application in a defined subrack, accepting pluggable 3 1/2” drives to be plugged into a (custom) backplane. This subrack is a solution for horizontal mounted drives only. For vertical mounted drives, use any 3U, 4U or 6U Ripac subracks and drive chassis as defined on page 26. Features: • Sizes available: 2U, 4U, 6U • Plug-in depth: 148.7mm • Shock and vibration tested to: IEC600068-2-6 (Fc) IEC600068-2-27 (Ea)

D

Drive Backplane 2U position 21 HP 24 HP spare 30 HP 1 2U For: 4 x 3 /2" 1 Note: 20mm and 26mm 3 /2" drives can 1 Or 2 x 5 /4" Drive Chassis 1 148.7 be dual in each 3 /2" drive chassis. D U D Kit No. 2 150 3684115

Drive

2U

4U

Drive

2U Drive 1 1 4U For: 8 x 3 /2" Note: 20mm and 26mm 3 /2" drives 1 1 Or 4 x 5 /4" Drive Chassis can be dual in each 3 /2" drive chassis. 148.7 U D Kit No. D 4 150 3684116

Drive

2U

Drive

6U

2U

1 1 6U For: 12 x 3 /2" 2 Drive 2U Note: 20mm and 26mm 3 / " drives can 1 1 Or 6 x 5 /4" Drive Chassis be dual in each 3 /2" drive chassis. U D Kit No. 6 150 3684117 148.7

24 Type H (Horizontal) Drive Chassis For 2U, 4U And 6U Ripac Vario Drive Chassis Subracks • Drives are H (horizontally) mounted • Front removal drive chassis 1 • Will accept 5 /4" HH (CD-ROM) 1 or 3 /2" drives • 2x20mm and 2x26mm 31/2” drives can be mounted into a single drive chassis 1 • Backplane pluggable for 3 /2" drives • Inquire for custom backplane designs

1 W 3 /2" Drive Chassis With Cut-Out For 1 Drive M2.5 type thread No. of drives H W Part No. 1 20 102 3684118

2U 1 26 102 3684119

H 1 31 102 3684120 1 41.5 102 3684121 Material: aluminum extruded 21 HP Finish: clear chromated

W 1 3 /2" Drive Chassis With Cut-Out For 2 Drives No. of drives H W Part No. 2 (20) 43 102 3684122

2U

H 2 (26) 55 102 3684123

21 HP Dual Drive Brackets With Cut-Outs For 2 Drives Including Mounting Parts Bracket Kit No. 1 pair 3684125 Material: aluminum extruded W Finish: clear chromated

1 4

H 5 / " HH Drive Or CD-ROM 2U Chassis With Cut-Out For 1 Drive No. of drives H W Part No. 1 41.5 147 3684124

30 HP

All dimensions are in millimeters (mm) 25 Type V (Vertical) Drive Chassis For 3U, 4U And 6U Ripac Subracks • EMC design • Drives are V (vertically) mounted • Front removal drive chassis 1 • Will accept 5 /4" HH (CD-ROM) 1 or 3 /2" drives • Suitable for Ripac EMC and Non-EMC subracks

Vertical Drive Chassis Support Guides Provide for a rigid support of the drive chassis in the CPCI system. Made of aluminum extrusion and are bolted on the top/bottom, front/rear horizontal rails. Each kit includes two (2) guides and mounting parts suitable for mounting one (1) vertical drive chassis. Part No: 3686989 1 kit

Note: For drive backplane designs, please inquire. There are no standard backplanes available. May be included into a custom CPCI backplane or a separate custom backplane.

Type V "Vertical" Front panel HP Front panel Approximate depth Kit No. Drive cut-out Mounted EMC Drive of drive assembly Chassis U HP of drive assembly HW 1 Kit Includes: 1 x 3 /2" 3 8 160 20 102 3684468 • Front panel (1 piece) 3 8 160 26 102 3684469 • Side plate (1 piece) 3 8 160 31 102 3684470 • EMC gasket (1 piece) 3 10 160 41.5 102 3684471 1 • Assembly parts 1 x 3 /2" 4 8 160 20 102 3684472 4 8 160 26 102 3684473 Type V "Drive Chassis" 4 8 160 31 102 3684474 are suitable for Ripac 4 10 160 41.5 102 3684475 1 Non-EMC and Ripac 1 x 5 /4" EMC subracks

W 4 10 220 41.5 147 3684476

1 2 x 3 /2" 6 8 160 2 x 20 102 3684477

6 8 160 2 x 26 102 3684478

6 8 160 2 x 31 102 3684479

M2.5 type thread 6 10 160 2 x 41 102 3684480 1 1 x 5 /4"

6 10 220 41.5 147 3684481 H 3.92

EMC Material: Gasket Front panel: Aluminum extruded Finish: Clear chromated Side plate: Sheet aluminum Finish: Clear chromated

All dimensions are in millimeters (mm) 26 Supercool, Hot Swappable RiCool System Blowers... COOL SOLUTIONS. Cool Off With Rittal RiCool. Rittal Ripac has literally set the standard for CompactPCI packaging solutions. And our new RiCool Blower Assembly helps to keep the innovations coming. These supercool, hot swappable blowers deliver 220cfm system airflow at 70% efficiency (versus 20% when using typical 4.7” tubeaxial muffin fans) in only a 1U form factor. RiCool is an ideal solution for systems with PCBs exceeding 35W to 70W (average at 21 slots) heat loss and requiring a hotplug redundant blower. In addition, Rittal also offers a wide variety of conventional AC and DC fan solutions for applications which do not exceed 30W (average at 21 slots) heat dissipa- tion. So when things heat up, cool them off with Rittal Ripac cooling solutions.

27 R ITTAL RIPAC

RiCool Blower Assembly RiCool data and specifications ...... Pages 29-30

Conventional AC/DC Tubeaxial Muffin Fan Cooling Methods A, B, C and D ...... Page 31 Conventional AC/DC fans ...... Page 32

RiTherm Thermal Analysis System Thermal load boards and system ...... Pages 33-34

28 VME64x/CompactPCI... RICOOL BLOWER ASSEMBLY.

The powerful RiCool blower assembly is specially designed to provide effective cooling in densely packed CompactPCI systems where the average board has a heat loss of above 30 Watts at 21 slots and performs well at an average heat loss at 70W per PCB (at 21 slots). Low noise (48dBa at 3/4 speed and a life of approx. 60,000 hrs at 40°C) makes this blower the ideal solution for today’s CompactPCI systems. Air is drawn through the PCBs and then exhausted out the back of the system via a powerful curved impeller blower, while using only 1U rack space. Especially effective for such applications as telecommunications where rack height restrictions exist. Also targeted for industrial and scientific research applications.

Features And Benefits Power Consumption: Performance diagram 3344.012/.024/.048 • Uses only 1U of rack height 48W • Available in 12V, 24V and 48V dc Operating Temperature: -10°C to +60°C / +14°F to +140°F 1.6 • Fan alarm via fan speed sensor • Optional speed control 1.2 RiCool Blower Performance Data

Pst • Designed to move air effectively through densely packed subracks • cfm ...... 110cfm .8 (190m3/h) • Easy access • Static pressure ...... 4.07 cm (1.6 .4 .3 • Hot swapable for fast and easy inch) of H2O maintenance • Voltages...... 12, 24, 48V dc 0 20406080100120 • No extra ducting required • Rated current ...... 4, 2, 1 Amps V • Ability to use two blowers in 19” • Noise level free blowing .. 56.2dBa V Air displacement (cfm) applications • Weight ...... 5 lbs. (2.3 Kg) Pst Static pressure difference (inches of H2O) Typical performance diagram of RiCool • Locked rotor protection Typical performance diagram of tubeaxial RiCool Blower Construction muffin fans • Polarity protection • Housing ...... Cold rolled steel File No. E191011 • Automatic restart capability • Impeller ...... Noryl™ 94V0 • Bearing ...... Ball bearing Configuration • Power/alarm connector ...... Molex15-06-0061 Material: • Alarm signal ...... rpm sensor Clear zinc chromate steel housing • Life at full speed ... 60,000 hrs @ 40°C Includes: 50,000 hrs @ 50°C Complete fan assembly: weight 5 lbs. Please inquire for separate AC/DC ready for mounting in subrack, with Molex RiCool power supply. 15-06-0061 6 pin male mini-fit connector RiCool is also available in 19” blower trays (see inset Airflow Direction: photo at top). Please note that the airflow, power consumption, rated current and weight are double for Exhausts outward from back of subrack the 19” fan trays. For more information, please see page 30 or contact Rittal.

29 Front View 18.75 diam. (209.560)

¨ (43.1) 1.70

Top View (209.560) Thermistors needed for RiCool speed control: 8.250 PTC thermistor for 12V Part No. 3686887 PTC thermistor for 24V Part No. 3686888 PTC thermistor for 48V Part No. 3686889 Note: the thermistor comes with a 600mm (2’) cable.

Pin Location Description Pin #1, second motor ground (green) (209.560) Pin #2, program speed control (yellow) 8.250 Pin #3, inverted alarm (blue-low on pass) Large Pin #4, power (-) (black) Air intake Pin #5, power (+) (red) Pin #6, non-inverted alarm (blue/white-high on pass)

Pin #3, inverted alarm (blue-low on pass) ( Pin #2, program speed control (yellow)

Connector Detail Pin #1, second ground (green)

Air flow 6.9 3 2 1 4.20 Rear View

Air exit

(43.1) 6 5 4 1.70

(13.437) 13.4 4.20 .529 8.40 46.5 (209.560) 44.40

Pin #4, power (-) (black) Pin #5, power (+) (red) Pin #6, non-inverted alarm (blue/white-high on pass)

Individual RiCool Blowers Alarm Characteristics Part No. 3344.012 3344.024 3344.048 • Pin #3 inverted alarm, max load of 0.05A Voltage 12V dc (6-14V) 24V dc (16-28V) 48V dc (32-56V) at 60V dc Airflow (free air delivery) 110cfm/190m3/h 110cfm/190m3/h 110cfm/190m3/h • Pin #6 non-inverted alarm, max load of Power consumption 48W 48W 48W .015A at 5.5V dc Rated current 4.0A 2.0A 1.0A Noise level (dBa) 56dBa 56dBa 56dBa • Trigger speed at 40% of max speed ° ° ° ° ° ° Temperature range -10 C to +60 C -10 C to +60 C -10 C to +60 C • 10 second signal delay Weight 5 lb. (2.3 kg) 5 lb. (2.3 kg) 5 lb. (2.3 kg) Power/alarm connector Molex 15-06-0061 Molex 15-06-0061 Molex 15-06-0061 • Alarm condition causes +5V dc increase Alarm signal rpm sensor, non-isolated, rpm sensor, non-isolated, rpm sensor, non-isolated, in supply voltage measured between pin high on pass high on pass high on pass #3 and pin #1 • Customer supplied pull-up resister at 19” RiCool Blower Trays interfacing alarm required to limit current Part No. 3686.879 3686.880 3686.881 to blower alarm circuit Voltage 12V dc (6-14V) 24V dc (16-28V) 48V dc (32-56V) Airflow (free air delivery) 220cfm/380m3/h 220cfm/380m3/h 220cfm/380m3/h Power consumption 96W 96W 96W Rated current 8.0A 4.0A 2.0A Noise level (dBa) 56dBa 56dBa 56dBa Temperature range -10°C to +60°C -10°C to +60°C -10°C to +60°C Weight 10 lb. (4.6 kg) 10 lb. (4.6 kg) 10 lb. (4.6 kg) Power/alarm connector Molex 15-06-0061 Molex 15-06-0061 Molex 15-06-0061 Alarm signal rpm sensor, non-isolated, rpm sensor, non-isolated, rpm sensor, non-isolated, high on pass high on pass high on pass

30 Conventional AC/DC Tubeaxial Muffin Fans... SYSTEM COOLING.

Method A Air out Alternative air CompactPCI System Cooling Method A at top out at rear Method A is the most common way of system cooling and good for PCBs which do not exceed 30 Watt heat dissipation, since the fans have a “dead” spot over the center of the fan and typically “dead” spots between the fans (4 dead spots) at 21 slots. It is advisable to place the fans at least 50mm (2”) below the boards so that the air can “fan” out, thus air will reach all parts of the boards (this will add overall system height). The efficiency of these tubeaxial muffin fans operating at maximum generated 7.62mm/0.3” of H O of static pressure under these Dead 2 spots • conditions may be as little as 20%. An additional metal fan chassis 3 fans design is required making replacement of failed fans difficult and time • PSU cooling consuming. System shut down at fan replacement may be required. Dead • spots •

Alternative air in front PCB cooling Air in at bottom

Method B CompactPCI System Cooling Method B Method B is not often used, as the fans may be in the way of top mounted drives, power supplies, etc. Air out at top However, this method is an improvement over Method A, as the efficiency of these muffin fans may be as much as 30%. The reason 3 fans is there are no dead spots to deal with and less back pressure. However, the maximum generated static pressure of the tubeaxial muffin fans remains at 7.62mm/0.3“ of H2O.

PSU cooling

PCB cooling Air in at bottom

Method C CompactPCI System Cooling Method C Air out at rear Method C is perhaps the most popular for VME solutions. However, it is not suitable when extensive rear panel I/O or CompactPCI rear mounted I/O boards are used. Fan efficiency is approx 30%. 3 fans

The RiCool Advantage Method D

The ability of the RiCool blower to generate 40.64mm/1.6” (H2O) of static pressure confirms that the RiCool blower is able to provide effective cooling in densely packed enclosures and subracks. By comparison, a typical 19” rackmount fan tray, consisting of (3) 4.7” x 4.7” 18W (110cfm at free

PSU cooling delivery) fans, generates only 0.22”-0.40” (H2O) of static pressure. The estimated (operating) static pressure point of a fan assembly mounted

inside a fully loaded subrack is 0.3-0.5” (H2O). Under those conditions one RiCool blower assembly provides at least 40% higher airflow than a typical PCB cooling 19” rackmount fan tray with 3 tubeaxial muffin fans.

Air in front

31 Conventional AC/DC Fans

AC-Fans Types of AC Hertz Watts CFM dBa Temp. Wgt. Features Approvals bearing volts max °C (oz) UL CSA VDE Ball 115 60/50 18 106 51 90 18 Terminals • • • Ball 230 60/50 18 106 51 90 18 Terminals • • • 119 38 105 9.5 Note: Fan mounting parts AC-Fan required: M 4 x 12 csk AC volt Packs of Part No. pozidrive head, M 4 nut, M 4 external tooth serrated 115 1 3686321 washer for 1 fan — 230 1 3686322 Kit No. 3685197 Plug/Cord Set Cord length Packs of Part No. 610 (UL) 1 3686325 3.7 1000mm 1 3686326

DC-Fans Types of DC Voltage Temp. Watts CFM dBA Temp. Wgt. Features Approvals With temperature depen- bearing volts range °C max °C (oz) UL CSA VDE dent speed control. Ball 12 8-13 30 1.8 50 29 65 8 Leads, • • • 50 5.4 100 45 alarm Ball 24 21/27 30 3.0 50 65 65 8 Leads, • • • 50 5.4 100 45 alarm 32 119 22 105 Note: Fan mounting parts DC-Fan required: M 4 x 12 csk DC volt Packs of Part No. pozidrive head, M 4 nut, M 4 external tooth serrated 12 1 3686323 washer for 1 fan — 24 1 3686324 Kit No. 3685197 Plug/Cord Set 310 Cord length Packs of Part No. 4.3 610 (UL) 1 3686325 1000mm 1 3686326

Alarm signal Temperature Sensor (NTC Resistor Ω + Supply Voltage Rc 100K ) For DC-Fans With Temperature - Ground + alarm voltage Dependent Speed Control M Temperature Sensor + motor DC volt Packs of Part No. Alarm Signal (optional) - motor 12 3686327 R(NTC) 1 Temp. sensor 24 Type/10 Type/17 Type/10

115 105 4.6 Fan Filter Guard Finger Guard Material Packs of Part No. Plastic 1 3686328 Material: polycarbonate UL94 Color: black

72 EMC Filter Guard EMC EMC Filter Guard filter guard Finger Panel Material Packs of Part No. guard Aluminum 1 3686329 EMC filter guard 120mm x 120mm

72 Aluminum 1 3686359 Fan 80mm x 80mm Material: 1mm aluminum Finish: clear chromated

All dimensions are in millimeters (mm) 32 Advanced System Cooling Analysis... RITHERM. The RP39xx Thermal Load Boards This RiTherm load board is a concept that enables users to validate the thermal characteristics of their system before all PCBs are designed. In past projects, system designers have often underestimated the need for heat dissipation. This miscalculation of the cooling system can cause costly problems, such as a missed product launch. Now, Rittal and PIXStream have designed a simple system that will enable you to validate cooling dynamics of your particular system before it is built. The RP6100 Thermal System The RiTherm system consists of a 10U CompactPCI subrack equipped with two powerful hot swappable 12V RiCool blowers. The CPCI backplane is of your choice. The system shown is designed to accept up to 21 slots of front/rear mounted (6U x 160mm front/6U x 80mm back) PCBs. A solution for measuring rear PCBs (I/O boards) is presently not included.

Features And Benefits The main components are: • Simulation of I/O or SBC boards up to 90 • 38 power resistor banks that can be Watts individually powered from either the 5V or • Support up to 21 load boards 3.3V backplane power rails. These resistor banks are distributed evenly • Six temperature sensors on each load board across the load board and can be • A precise airflow sensor is available on the configured to dissipate between 0 Watt RP3901 load board and 90 Watt of combined power (maxi- • 38 configurable resistor loads per load board mum 40W from the 3.3V rail, or 90W from • No sensor wires required the +5V rail). • Uses only the J1 connector of the • Eight power resistor banks that can be CompactPCI spec. for power only individually powered from either the +12V • The load boards will fit into any IEEE 1101.10 or the -12V power rails and that can compatible CPCI system or subrack dissipate between 0W and 23W of • Simple Windows95 user interface with combined power. graphics and data logging • Six calibration-free temperature sensors, • Daisy-chain RS232 port supported placed at various locations. • Low voltage detector • Three mass airflow sensors. • 8051 series microcontroller (AnchorChip AN2131QC) with RS232C serial host interface. This interface is used to report Description temperature and airflow measurement to a host PC. The RiTherm load board and the RiTherm system concept are built around the RP39xx Up to 21 RP39xx load boards can be front/ load board. The RP39xx load board is a 6U/3U rear loaded into the RiTherm system and they CompactPCI form factor instrumentation board can be daisy-chained such that one RP39xx and is CPCI based. It provides a resistive load board is the designated host-interface heating array, temperature and airflow (master) load board, while others are slaves. sensors. The RP3901 load board This topology permits readings to be The intended applications are: obtained from any slot of the RiTherm system. • Evaluation and measurement of cooling in 6U/3U CompactPCI systems. • Evaluation of power supply quality on CompactPCI backplanes. • Voltage measurement of 5V, 3.3V, and +12V/-12V on each load board.

33 The RiTherm thermal development system: Main Window The RiTherm thermal development system: Details Window

Hot swappable RiCool blowers (2) ▲ How To Order RiTherm Air Out You can order either a complete RiTherm system consisting of the RiTherm subrack Air Out (chassis) with your choice of (No. of slots) CPCI backplane and (No. of) power supplies Air suction and drives or the individual RiTherm RP39xx to cool load boards to be plugged into your CPCI rear I/0 system. When ordering a RiTherm system, ▲ you must specify the number slots to be occupied by the load boards and the pluggable power supply (if used). For choice For PCB P5 For PCB of CPCI backplanes see our comprehensive 6U x 160 6U x 180 range of CompactPCI backplanes.

P4 Description Model Part No. 10U RiTherm system RP6100 3687498 w/o CPCI backplane 10U and PSU 6U P3 Load board RP3901 RP3901 3687826 with airflow sensors, 6Ux160mm P2 Load board RP3903 RP3903 3687987 with additional airflow sensors, 6Ux80mm P1 Load board RP3904 RP3904 3687988 with additional airflow sensors, 3Ux160mm

▲ Thermal accessory RP3902 3686886 kit with software and cables Please inquire for the detailed RiTherm Air In support manual.

▲ ▲

▲ 296.7mm

Optional front removable air filter

34 Modular CompactPCI Backplanes... COMPREHENSIVE SOL Let Rittal Ripac Back You Up. As you can see, there is nothing conventional about Rittal Ripac. And our backplanes are no exception. Rittal offers a comprehensive family of modular CompactPCI 3U and 6U backplanes, with an added 1/2U for efficient power manage- ment. What’s more, this unique range of backplanes includes 32-bit and 64-bit versions, family related and electrically/electronically matched bridges, cables, termination modules, power supply backplanes and CompactPCI plus H.110 backplanes. It’s exactly what you would expect from Rittal–the Original CompactPCI Packaging Company.

35 LUTIONS.

R ITTAL RIPAC

Modular CompactPCI Backplanes

1 3 /2U, 32- and 64-bit backplanes ...... Pages 38-42

1 6 /2U, 32- and 64-bit backplanes ...... Pages 42-46 7U, 64-bit J4/P4 H.110 bus backplanes ...... Page 47

1 3 /2U power supply backplanes ...... Page 49

1 6 /2U pluggable power supply backplanes...... Pages 50-51 Backplane bridges...... Page 52

36 RP13xx, RP14xx And RP44xx Modular Series... COMPACTPCI BACKPLANES.

The intention of this modular CPCI backplane series is to get you “on the way” with your CPCI prototype as quickly as possible. For your production needs, custom “monolithic” backplanes may be required (for reduced power cabling, please inquire). Power is supplied to the system through ATX- compliant connectors. Front pluggable CompactPCI power supplies require a pluggable power supply backplane (see pages 49-51). The pluggable power supply backplane is connected to the CompactPCI backplanes via a cable harness. ATX compatible power supply harnesses may be directly plugged into CompactPCI backplanes. For more information on custom CPCI backplanes, please see the note below. The RP CPCI modular backplanes are co-developed by PIXStream and Rittal.

Overview Technical Specifications The RP13xx, the RP14xx and the RP44xx series of 32-bit or CPU Slot 64-bit backplanes allow the construction of CompactPCI One single-wide 3U or 6U 32-bit or 64-bit CPU card is required per systems with any number of slots. system. The system slot on the right side ensures that 2-slot wide (or Each backplane module contains between 2 and 8 slots and more) system cards will not overhang peripheral CPCI slots rendering operate in stand-alone mode with a CPU card and power them unusable. supply. Available Slots To build larger systems, multiple modules can be linked Each backplane contains two to eight 3U or 6U single-wide, 32-bit or together using rear-mounting PCI bridge modules. In this 64-bit CompactPCI slots. The bus interfaces are 5V, 33MHz hot swap case, only one of the modules operates with a CPU card in the compatible. system slot. PCI Bridge Slots A bridge module drives the buses of the remaining modules Single backplanes require no bridge. One rear-mounting bridge (which become slave modules). Slave modules do not contain (RP1130) is required for each additional backplane. CPU modules, but the first slot on the right side of the Power Supply backplanes (system seen from the front) becomes available Each backplane contains one or more ATX compliant for a standard 32-bit or 64-bit CompactPCI host CPU. power connectors. All CPCI modular backplanes are of an 8 layer design, and the External Power Header CPCI/H.110 backplanes are of a 10 layer design. Each backplane contains 0.156” MTA header, for connecting a power switch, power LEDs, etc. This connector makes +3.3V, +5V, and +/- Please inquire for our comprehensive RP13xx-RP14xx 12V voltages available outside the backplane. and/or RP44xx CompactPCI Backplane User Manuals. Rear I/O (J3-J5) For RP14xx And RP44xx Each slot provides rear I/O through the use of “long-tailed” J3-J5 connectors with shrouds. Please consult the factory for cost reduced versions with depopulated J3-J5 connectors and shrouds. Standards compliance PCI 2.1 (PCI Spec.) PICMG 2.0 R2.2 (CompactPCI Spec.) PICMG 2.1 R1.0 (Hot swap Spec.) Note: When using the modular RP CPCI backplane range, IEEE 1101.1 Mechanical please remember that cable harnesses are required for IEEE 1101.10 Mechanical power feed. If customized “monolithic” CPCI backplanes are IEEE 1101.11 Mechanical required, these cable harnesses would be “embedded” (designed in) into the backplane (typical CPCI monolithic). See pages 35-36 for a typical design.

37 Modular CompactPCI Backplanes

RP1300 Backplane RP1300 - 8 slot, 3.5U, 64-bits Technical Specifications: CPU slot: 64-bit 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' Available slots: 8 @ 3U PCI bridge slots: Cannot be used with rear B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt mounted bridge. Must use termination card in B22-long place of bridge module. SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6 SLOT 7 3U Power supply: 3 ATX compliant power 3.5U connectors SLOT 8 (HOST SLOT) A25-long A25-short A25-short A25-short A25-short A25-short A25-short A25-short

Description Part No. RP1300 8 slot x 3.5U x 64-bit 3686546 Control header CompactPCI backplane ATX Connector ATX Connector ATX Connector RP1140 optional termination 3686554 card (required for 8 slot only if not fully loaded) Stand alone backplane For system slot on left, please inquire. Front view system slot on right

RP1300 front view

RP1301 Backplane RP1301 - 8 slot, 3.5U, 32-bits Technical Specifications: CPU slot: 32-bit Available slots: 8 @ 3U PCI bridge slots: Cannot be used with rear B22-long mounted bridge. Must use termination card in B22-short 3U

place of bridge module. SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6 SLOT 7 3.5U

Power supply: 3 ATX compliant power SLOT 8 (HOST SLOT) A25-long A25-short A25-short A25-short A25-short A25-short A25-short connectors A25-short

Description Part No. Control header RP1301 8 slot x 3.5U x 32-bit 3687859 CompactPCI backplane ATX Connector ATX Connector ATX Connector RP1140 optional termination 3686554 card (required for 8 slot only if not fully loaded) Stand alone backplane For system slot on left, please inquire. Front view system slot on right

RP1300 rear view

RP1320 Backplane RP1320 - 7 slot, 3.5U, 64-bits Technical Specifications: CPU slot: 64-bit 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' Available slots: 7 @ 3U Can be used in a variety of different system configurations: B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt 1. stand alone as a 7 slot system B22-long B22-long

2. as a master segment containing the root 3U 3.5U PCI node SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6

3. as a slave segment, driven by a RP1130 SLOT 7 (HOST SLOT) A25-long A25-long bridge A25-short A25-short A25-short A25-short A25-short Power supply: 2 ATX compliant power connectors Control header Description Part No. ATX Connector ATX Connector RP1320 7 slot x 3.5U x 64-bit 3686547 CompactPCI backplane RP 1130 CompactPCI to 3686571 Stand alone, beginning or ending CompactPCI bridge backplane segment RP1320 front view For system slot on left, please inquire. Front view system slot on right

38 RP1321 Backplane RP1321 - 7 slot, 3.5U, 32-bits Technical Specifications: CPU slot: 32-bit Available slots: 7 @ 3U Can be used in a variety of different system configurations: 1. stand alone as a 7 slot system B22-long B22-long 3U 3.5U

2. as a master segment containing the root SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6 PCI node 3. as a slave segment, driven by a RP1130 bridge SLOT 7 (HOST SLOT) A25-long A25-long A25-short A25-short A25-short A25-short A25-short Power supply: 2 ATX compliant power connectors

Control header Description Part No. ATX Connector ATX Connector RP1321 7 slot x 3.5U x 32-bit 3687860 CompactPCI backplane RP1130 CompactPCI to 3686571 Stand alone, CompactPCI bridge beginning, middle or ending For system slot on left, please inquire. backplane segment Front view system slot on right

RP1320 rear view

RP1330 Backplane RP1330 - 6 slot, 3.5U, 64-bits Technical Specifications: CPU slot: 64-bit Available slots: 6 @ 3U 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' Can be used in a variety of different system configurations: 1. stand alone as a 6 slot system B22-shrt B22-shrt B22-shrt B22-shrt 2. as a master segment containing the root B22-long B22-long

PCI node SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 3U 3. as a slave segment, driven by a RP1130 bridge 3.5U 4. as a master and slave segment, driven by and SLOT 6 (HOST SLOT) A25-long A25-long driving a PS1130 bridge A25-short A25-short A25-short A25-short Power supply: 2 ATX compliant power

connectors Control header

Description Part No. ATX Connector ATX Connector RP1330 6 slot x 3.5U x 64-bit 3686548 CompactPCI backplane RP1130 CompactPCI to 3686571 Stand alone, CompactPCI bridge beginning, middle or ending For system slot on left, please inquire. backplane segment Front view system slot on right RP1330 front view RP1331 Backplane RP1331 - 6 slot, 3.5U, 32-bits Technical Specifications: CPU slot: 32-bit Available slots: 6 @ 3U Can be used in a variety of different system configurations:

1. stand alone as a 6 slot system B22-long B22-long 2. as a master segment containing the root SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5

PCI node 3U 3. as a slave segment, driven by a RP1130 3.5U SLOT 6 (HOST SLOT)

bridge A25-long A25-long A25-short A25-short A25-short A25-short 4. as a master and slave segment, driven by and driving a PS1130 bridge Power supply: 2 ATX compliant power Control header connectors ATX Connector ATX Connector Description Part No. RP1331 6 slot x 3.5U x 32-bit 3687861 CompactPCI backplane Stand alone, RP1130 CompactPCI to 3686571 beginning, middle or ending CompactPCI bridge backplane segment For system slot on left, please inquire. Front view system slot on right

RP1330 rear view

39 RP1340 Backplane RP1340 - 5 slot, 3.5U, 64-bits Technical Specifications: CPU slot: 64-bit

Available slots: 5 @ 3U 'GA' 'GA' 'GA' 'GA' 'GA' Can be used in a variety of different system configurations: 1. stand alone as a 5 slot system 2. as a slave segment driven by a RP1130 B22-shrt B22-shrt B22-shrt B22-shrt bridge B22-long 3U

Power supply: 2 ATX compliant power SLOT 1 SLOT 2 SLOT 3 SLOT 4 connectors 3.5U SLOT 5 (HOST SLOT) A25-long

Description Part No. A25-short A25-short A25-short A25-short RP1340 5 slot x 3.5U x 64-bit 3686575 CompactPCI backplane RP1130 CompactPCI to 3686571 Control header CompactPCI bridge For system slot on left, please inquire. ATX Connector ATX Connector

Stand alone or ending backplane segment RP1340 front view Front view system slot on right RP1341 Backplane RP1341 - 5 slot, 3.5U, 32-bits Technical Specifications: CPU slot: 32-bit Available slots: 5 @ 3U Can be used in a variety of different system configurations: 1. stand alone as a 5 slot system 2. as a slave segment driven by a RP1130 bridge B22-long 3U Power supply: 2 ATX compliant power SLOT 1 SLOT 2 SLOT 3 SLOT 4 connectors 3.5U SLOT 5 (HOST SLOT) A25-long Description Part No. A25-short A25-short A25-short A25-short RP1341 5 slot x 3.5U x 32-bit 3687862 CompactPCI backplane

RP1130 CompactPCI to 3686571 Control header CompactPCI bridge For system slot on left, please inquire. ATX Connector ATX Connector

Stand alone or ending backplane segment RP1340 rear view Front view system slot on right

RP1350 Backplane RP1350 - 4 slot, 3.5U, 64-bits Technical Specifications: CPU slot: 64-bit

Available slots: 4 @ 3U 'GA' 'GA' 'GA' 'GA' Can be used in a variety of different system configurations: 1. stand alone as a 4 slot system 2. as a slave segment driven by a RP1130 B22-shrt B22-shrt B22-shrt bridge B22-long 3U Power supply: 1 ATX compliant power SLOT 1 SLOT 2 SLOT 3 3.5U connector SLOT 4 (HOST SLOT) A25-long Description Part No. A25-short A25-short A25-short RP1350 4 slot x 3.5U x 64-bit 3686576 CompactPCI backplane

RP1130 CompactPCI to 3686571 Control header CompactPCI bridge

For system slot on left, please inquire. ATX Connector

Stand alone or ending backplane segment RP1350 front view Front view system slot on right

40 RP1351 Backplane RP1351 - 4 slot, 3.5U, 32-bits Technical Specifications: CPU slot: 32-bit Available slots: 4 @ 3U Can be used in a variety of different system configurations: 1. stand alone as a 4 slot system 2. as a slave segment driven by a RP1130 B22-long bridge SLOT 1 SLOT 2 SLOT 3

Power supply: 1 ATX compliant power 3U connector 3.5U SLOT 4 (HOST SLOT) A25-long Description Part No. A25-short A25-short A25-short RP1351 4 slot x 3.5U x 32-bit 3687863 CompactPCI backplane RP1130 CompactPCI to 3686571 Control header CompactPCI bridge For system slot on left, please inquire. ATX Connector

Stand alone or ending backplane segment RP1350 rear view Front view system slot on right

RP1360 Backplane RP1360 - 3 slot, 3.5U, 64-bits Technical Specifications: CPU slot: 64-bit

Available slots: 3 @ 3U 'GA' 'GA' 'GA' Can be used in a variety of different system configurations: 1. stand alone as a 3 slot system B22-shrt 2. as a slave segment driven by a RP1130 B22-shrt B22-long bridge SLOT 1 SLOT 2

Power supply: 1 ATX compliant power 3U 3.5U connector SLOT 3 (HOST SLOT) A25-long Description Part No. A25-short A25-short RP1360 3 slot x 3.5U x 64-bit 3686578 CompactPCI backplane

RP1130 CompactPCI to 3686571 Control header CompactPCI bridge For system slot on left, please inquire. ATX Connector

Stand alone or ending backplane segment Front view system slot on right RP1360 front view RP1362 Backplane RP1362 - 3 slot, 3.5U, 32-bits Technical Specifications: CPU slot: 32-bit

Available slots: 3 @ 3U 'GA' 'GA' 'GA' Can be used in a variety of different system configurations: 1. stand alone as a 3 slot system 2. as a slave segment driven by a RP1130

bridge B22-long Power supply: 1 ATX compliant power 3U SLOT 1 SLOT 2 connector 3.5U

Description Part No. SLOT 3 (HOST SLOT) A25-long RP1362 3 slot x 3.5U x 64-bit 3687864 A25-short A25-short CompactPCI backplane RP1130 CompactPCI to 3686571 CompactPCI bridge Control header For system slot on left, please inquire. ATX Connector

Stand alone or ending backplane segment Front view system slot on right RP1360 rear view

41 RP1361 Backplane RP1361 - 2 slot, 3.5U, 64-bits Technical Specifications: CPU slot: 64-bit

Available slots: 2 @ 3U (The backplane is 'GA' 'GA' 'GA' physically 3 slots wide) Can be used in a variety of different system configurations: 1. stand alone as a 2 slot system B22-shrt 2. as a slave segment driven by a RP1130 B22-long bridge SLOT 2 3U

Power supply: 1 ATX compliant power 3.5U

connector SLOT 3 (HOST SLOT) A25-long Description Part No. A25-short RP1361 2 slot x 3.5U x 64-bit 3687864 CompactPCI backplane RP1130 CompactPCI to 3686571 Control header CompactPCI bridge For system slot on left, please inquire. ATX Connector

Stand alone or ending backplane segment RP1361 front/rear view Front view system slot on right

RP1400A Backplane RP1400A - 8 slot, 6.5U, 64-bits

Technical Specifications: 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' CPU slot: 64-bit Available slots: 8 @ 6U B22-long B22-long B22-long B22-long B22-long B22-long B22-long B22-long PCI bridge slots: Cannot be used with rear mounted bridge.

Power supply: 3 ATX compliant power A25-long A25-long A25-long A25-long A25-long A25-long A25-long A25-long connectors 6U 6.5U Description Part No. B19-long B19-long B19-long B19-long B19-long B19-long B19-long B19-long RP1400A 8 slot x 6.5U x 64-bit 3686549 CompactPCI backplane B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt B22-long For system slot on left, please inquire. SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6 SLOT 7 SLOT 8 (HOST SLOT) A25-long A25-short A25-short A25-short A25-short A25-short A25-short A25-short

ATX Connector ATX Connector ATX Connector

Stand alone backplane Front view system slot on right RP1400A front view

RP1401A Backplane RP1401A - 8 slot, 6.5U, 32-bits Technical Specifications: CPU slot: 32-bit Available slots: 8 @ 6U PCI bridge slots: Cannot be used with rear mounted bridge. Power supply: 3 ATX compliant power connectors 6U 6.5U Description Part No. RP1401A 8 slot x 6.5U x 32-bit 3687866 CompactPCI backplane B22-shrt For system slot on left, please inquire. B22-long SLOT 1 SLOT 3 SLOT 4 SLOT 5 SLOT 6 SLOT 7 SLOT 2 SLOT 8 (HOST SLOT) A25-long A25-short A25-short A25-short A25-short A25-short A25-short A25-short

ATX Connector ATX Connector ATX Connector

Stand alone backplane Front view system slot on right RP1400A rear view

42 RP1420 Backplane RP1420 - 7 slot, 6.5U, 64-bits

Technical Specifications: 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' CPU slot: 64-bit Available slots: 7 @ 6U B22-long B22-long B22-long B22-long B22-long B22-long B22-long Can be used in a variety of different system configurations:

1. stand alone as a 7 slot system A25-long A25-long A25-long A25-long A25-long A25-long A25-long 2. as a master segment containing the root

PCI node 6U 6.5U

3. as a slave segment, driven by a RP1130 B19-long B19-long B19-long B19-long B19-long B19-long B19-long bridge Power supply: 2 ATX compliant power B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt connectors B22-long B22-iong SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6 Description Part No. SLOT 7 (HOST SLOT) A25-long A25-long RP1420 7 slot x 6.5U x 64-bit 3686550 A25-short A25-short A25-short A25-short A25-short CompactPCI backplane RP1130 CompactPCI to 3686571 CompactPCI bridge ATX Connector ATX Connector For system slot on left, please inquire. Control Jumper Stand alone, beginning or ending backplane segment RP1420 front view Front view system slot on right

RP1421 Backplane RP1421 - 7 slot, 6.5U, 32-bits

Technical Specifications: 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' CPU slot: 32-bit Available slots: 7 @ 6U Can be used in a variety of different system configurations: 1. stand alone as a 7 slot system 2. as a master segment containing the root PCI node 6U

3. as a slave segment, driven by a RP1130 6.5U bridge Power supply: 2 ATX compliant power connectors B22-long B22-long SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6 Description Part No. SLOT 7 (HOST SLOT) A25-long A25-long RP1421 7 slot x 6.5U x 32-bit 3687867 A25-short A25-short A25-short A25-short A25-short CompactPCI backplane RP1130 CompactPCI to 3686571 CompactPCI bridge ATX Connector ATX Connector Control Jumper For system slot on left, please inquire. Stand alone, beginning or ending backplane segment RP1420 rear view Front view system slot on right

RP1430 Backplane RP1430 - 6 slot, 6.5U, 64-bits

Technical Specifications: 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' CPU slot: 64-bit Available slots: 6 @ 6U B22-long B22-long B22-long B22-long B22-long B22-long Can be used in a variety of different system configurations:

1. stand alone as a 6 slot system A25-long A25-long A25-long A25-long A25-long A25-long 2. as a master segment containing the root

PCI node 6U 6.5U 3. as a slave segment, driven by a RP1130 bridge B19-long B19-long B19-long B19-long B19-long B19-long 4. as a master and slave segment, driven by and driving a PS 1130 bridge B22-shrt B22-shrt B22-shrt B22-shrt B22-long B22-long Power supply: 2 ATX compliant power connectors SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6 (HOST SLOT) A25-long A25-long A25-short A25-short A25-short A25-short Description Part No. RP1430 6 slot x 6.5U x 64-bit 3686551 CompactPCI backplane ATX Connector ATX Connector RP1130 CompactPCI to 3686571 Control Jumper CompactPCI bridge Stand alone, beginning, middle or For system slot on left, please inquire. ending backplane segment Front view system slot on right RP1430 front view

43 RP1431 Backplane RP1431 - 6 slot, 6.5U, 32-bits Technical Specifications: CPU slot: 32-bit Available slots: 6 @ 6U Can be used in a variety of different system configurations: 1. stand alone as a 6 slot system 2. as a master segment containing the root

PCI node 6U 6.5U 3. as a slave segment, driven by a RP1130 bridge 4. as a master and slave segment, driven by and

driving a PS 1130 bridge B22-long B22-long

Power supply: 2 ATX compliant power SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 connectors SLOT 6 (HOST SLOT) A25-long A25-long A25-short A25-short A25-short A25-short Description Part No. RP1431 6 slot x 6.5U x 32-bit 3687868 CompactPCI backplane ATX Connector ATX Connector Control Jumper RP1130 CompactPCI to 3686571 CompactPCI bridge Stand alone, beginning, middle or For system slot on left, please inquire. ending backplane segment Front view system slot on right RP1430 rear view

RP1440 Backplane RP1440 - 5 slot, 6.5U, 64-bits

Technical Specifications: 'GA' 'GA' 'GA' 'GA' 'GA' CPU slot: 64-bit Available slots: 5 @ 6U B22-long B22-long B22-long B22-long B22-long Can be used in a variety of different system configurations:

1. stand alone as a 5 slot system A25-long A25-long A25-long A25-long A25-long 2. as a slave segment driven by a RP1130 bridge 6U 6.5U Power supply: 2 ATX compliant power B19-long B19-long B19-long B19-long B19-long connectors B22-shrt B22-shrt B22-shrt B22-shrt Description Part No. B22-long

RP1440 5 slot x 6.5U x 64-bit 3686552 SLOT 1 SLOT 2 SLOT 3 SLOT 4 CompactPCI backplane SLOT 5 (HOST SLOT) A25-long RP1130 CompactPCI to 3686571 A25-short A25-short A25-short A25-short CompactPCI bridge For system slot on left, please inquire. ATX Connector ATX Connector Control Jumper

Stand alone or ending backplane segment Front view system slot on right RP1440 front view RP1441 Backplane Technical Specifications: RP1441 - 5 slot, 6.5U, 32-bits CPU slot: 32-bit Available slots: 5 @ 6U Can be used in a variety of different system configurations: 1. stand alone as a 5 slot system 2. as a slave segment driven by a RP1130 bridge Power supply: 2 ATX compliant power 6U connectors 6.5U

Description Part No.

RP1441 5 slot x 6.5U x 32-bit 3687869 B22-long CompactPCI backplane SLOT 1 SLOT 3 SLOT 4 SLOT 2 RP1130 CompactPCI to 3686571 SLOT 5 (HOST SLOT) A25-long CompactPCI bridge A25-short A25-short A25-short A25-short For system slot on left, please inquire.

ATX Connector ATX Connector Control Jumper Stand alone or ending backplane segment RP1440 rear view Front view system slot on right

44 RP1450 - 4 slot, 6.5U, RP1450 Backplane 64-bits

Technical Specifications: 'GA' 'GA' 'GA' 'GA' CPU slot: 64-bit Available slots: 4 @ 6U B22-long B22-long B22-long B22-long Can be used in a variety of different system configurations: 1. stand alone as a 4 slot system A25-long A25-long A25-long A25-long 2. as a slave segment driven by a RP1130 bridge 6U 6.5U

Power supply: 1 ATX compliant power B19-long B19-long B19-long B19-long connector B22-shrt B22-shrt B22-shrt Description Part No. B22-long

RP1450 4 slot x 6.5U x 64-bit 3686579 SLOT 1 SLOT 2 SLOT 3 CompactPCI backplane SLOT 4 (HOST SLOT) A25-long RP1130 CompactPCI to 3686571 A25-short A25-short A25-short CompactPCI bridge For system slot on left, please inquire. ATX Connector Control Jumper

Stand alone or ending backplane segment Front view system slot on right RP1450 front view

RP1451 - 4 slot, 6.5U, RP1451 Backplane 32-bits Technical Specifications: CPU slot: 32-bit Available slots: 4 @ 6U Can be used in a variety of different system configurations: 1. stand alone as a 4 slot system 2. as a slave segment driven by a RP1130 bridge 6U Power supply: 1 ATX compliant power 6.5U connector

Description Part No. B22-long

RP1451 4 slot x 6.5U x 32-bit 3687870 SLOT 1 SLOT 2 SLOT 3 CompactPCI backplane SLOT 4 (HOST SLOT) A25-long RP1130 CompactPCI to 3686571 A25-short A25-short A25-short CompactPCI bridge For system slot on left, please inquire. ATX Connector Control Jumper

Stand alone or ending backplane segment Front view system slot on right RP1450 rear view

RP1460 - RP1460 Backplane 3 slot, 6.5U, 64-bits

Technical Specifications: 'GA' 'GA' 'GA' CPU slot: 64-bit Available slots: 3 @ 6U B22-long B22-long B22-long Can be used in a variety of different system configurations:

1. stand alone as a 3 slot system A25-long A25-long A25-long 2. as a slave segment driven by a RP1130

bridge 6U 6.5U

Power supply: 1 ATX compliant power B19-long B19-long B19-long connector B22-shrt B22-shrt Description Part No. B22-long

RP1460 3 slot x 6.5U x 64-bit 3686580 SLOT 1 SLOT 2 CompactPCI backplane SLOT 3 (HOST SLOT) A25-long RP1130 CompactPCI to 3686571 A25-short A25-short CompactPCI bridge

For system slot on left, please inquire. ATX Connector Control Jumper

Stand alone or ending backplane segment Front view system slot on right RP1460 front view

45 RP1462 Backplane RP1462 - 3 slot, 6.5U, 32-bits Technical Specifications: CPU slot: 32-bit Available slots: 3 @ 6U Can be used in a variety of different system configurations: 1. stand alone as a 3 slot system 2. as a slave segment driven by a RP1130 bridge Power supply: 1 ATX compliant power connector Description Part No.

RP1462 3 slot x 6.5U x 32-bit 3686581 6U CompactPCI backplane 6.5U RP1130 CompactPCI to 3686571 CompactPCI bridge For system slot on left, please inquire. B22-long SLOT 1 SLOT 2 SLOT 3 (HOST SLOT) A25-long A25-short A25-short RP1460 rear view

ATX Connector Control Jumper

Stand alone or ending backplane segment Front view system slot on right

RP1461 - RP1461 Backplane 2 slot, 6.5U, 64-bits Technical Specifications: CPU slot: 64-bit 'GA' 'GA' Available slots: 2 @ 6U (The backplane is physically 3 slots wide) Can be used in a variety of different system configurations: B22-long B22-long 1. stand alone as a 2 slot system 2. as a slave segment driven by a RP1130 bridge A25-long A25-long Power supply: 1 ATX compliant power connector 6U Description Part No. 6.5U

RP1461 2 slot x 6.5U x 64-bit 3687871 B19-long B19-long CompactPCI backplane RP1130 CompactPCI to 3686571 CompactPCI bridge B22-shrt For system slot on left, please inquire. B22-long SLOT 2 SLOT S3 (HOST SLOT) A25-long A25-short RP1461 front view RP1461 rear view

ATX Connector Control Jumper

Stand alone or ending backplane segment Front view system slot on right

46 RP44xx H.110 Backplanes 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' 'GA' Technical Specifications: CPU slot: 64-bit B22-long B22-long B22-long B22-long B22-long B22-long B22-long B22-long Available slots: 5 to 8 @ 6U Technically the same as the RP14xx H.110-long H.110-long modular backplane series but with H.110-short H.110-short H.110-short H.110-short H.110-short H.110-short J4/P4 H.110 pin assignment. To be

able to provide for good electrical 6U 7U connections, these H.110 B19-long B19-long B19-long B19-long B19-long B19-long B19-long B19-long backplanes are extended by 1U on B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt B22-shrt the bottom (to 7U overall height). B22-long

The 8 slot version is shown. SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6 SLOT 7

System slot right. SLOT 8 (HOST SLOT) A25-long A25-short A25-short A25-short A25-short A25-short A25-short A25-short

ATX Connector ATX Connector ATX Connector

J100

2x3 2x3 Mate-n- Mate-n- Lok Lok

RP4400-8 Slot, 7U, 64-Bits front view rear view CompactPCI/H.110 Backplanes The CompactPCI bus can be extended by using the CompactPCI to CompactPCI bridge. The H.110 bus can be extended by using the H.110 to H.110 bridge. The H.110 bus can be extended by using the H.110 extension backplanes and H.110 bridges. 8 Slot x 7U Stand-Alone CompactPCI/H.110 Backplane RP4400 8 slot x 7U x 64-bit x H.110 CompactPCI backplane ...... Part No. 3687872 RP1140 optional termination card (only for 8 slot) ...... Part No. 3686554 7 Slot x 7U Stand-Alone, Beginning Or Ending Segment CompactPCI/H.110 Backplane RP4420 7 slot x 7U x 64-bit x H.110 CompactPCI backplane ...... Part No. 3687873 RP1130 CompactPCI to CompactPCI bridge ...... Part No. 3686571 6 Slot x 7U Stand-Alone, Beginning, Middle Or Ending Segment CompactPCI/H.110 Backplane RP4430 6 slot x 7U x 64-bit x H.110 CompactPCI backplane ...... Part No. 3687874 RP1130 CompactPCI to CompactPCI bridge ...... Part No. 3686571 5 Slot x 7U Stand-Alone Or Ending Segment CompactPCI/H.110 Backplane RP4440 5 slot x 7U x H.110 CompactPCI backplane ...... Part No. 3687875 RP1130 CompactPCI to CompactPCI bridge ...... Part No. 3686571 H.110 Only Expansion Backplanes (May Be Used As Stand Alone) These expansion backplanes are loaded with J4/P4 and J5/P5 connectors and can be connected to the CompactPCI/H.110 backplanes via a H.110 bridge. RP4401 8 slot x 7U x H.110 bus only backplane with 2 slot 32-bit CPCI (1 host + 1 I/O) ...... Part No. 3687876 RP4421 7 slot x 7U x H.110 bus only backplane with 2 slot 32-bit CPCI (1 host + 1 I/O) ...... Part No. 3687877 RP4431 6 slot x 7U x H.110 bus only backplane with 2 slot 32-bit CPCI (1 host + 1 I/O) ...... Part No. 3687878 RP4441 5 slot x 7U x H.110 bus only backplane with 2 slot 32-bit CPCI (1 host + 1 I/O)...... Part No. 3687879 H.110 To H.110 Bridge To connect two H.110 bus backplanes only RP1150 H.110 to H.110 bridge ...... Part No. 3687880

J4 Pin Assignment Pos # Row Z Row A Row B Row C Row D Row E Row F Key to J4 Pin Assignments: 25 NP SGA4 SGA3 SGA2 SGA1 SGA0 FG CT_name = H.110 TDM bus signals +5V = +5V power 24 NP GA4 GA3 GA2 GA1 GA0 FG +3.3V = +3.3V power 23 NP +12V /CT_Reset /CT_EN -12V CT_MC FG GND = LOGIC GROUND 22 NP PFSO# RSVD RSVD RSVD RSVD FG V(I/O) = I/O cell power 21 NP -SEL Vbat PFS1# RSVD RSVD SEL VbatRtn FG FG = Frame ground 20 NP NP NP NP NP NP NP RSVD = reserved for future use 19 NP NP NP NP NP NP NP NP = a pin and pad REQUIRED to be not 18 NP VRG IN/C IN/C IN/C VRGRtn NP populated to meet safety regulations 17 NP NP NP NP NP NP NP IN/C = No connect required for safety 16 NP NP NP NP NP NP NP agency insulation requirements 15 NP -Vbat IN/C IN/C IN/C Vbat Rtn NP -SELVbat = short loop battery 14 SELVbatRtn = short loop battery return 13 KEY AREA -Vbat = telecom power distribution bus 12 VbatRtn = return bus pin for -Vbat SGA0-SGA4 = shelf enumeration bus signals 11 NP CT_D29 CT_D30 CT_D31 V (I/O) /CT_FRAME A GND GA0-GA4 = slot ID signals: not bussed 10 NP CT_D27 +3.3V CT_D28 +5V /C_FRAME B GND VRG = bus for ringing voltage 9 NP CT_D24 CT_D25 CT_D26 GND /FR_COMP GND VRGRtn = bus for ringing voltage 8 NP CT_D21 CT_D22 CT_D23 +5V CT_C8 A GND PFS0#-PFS1# = busses for power fail sense 7 NP CT_D19 +5V CT_D20 GND CT_C8 B GND KEY AREA = area utilized for key 6 NP CT_D16 CT_D17 CT_D18 GND CT_NETREF 1 GND 5 NP CT_D13 CT_D14 CT_D15 +3.3V CT_NETREF 2 GND 4 NP CT_D11 +5 V CT_D12 +3.3 V SCLK GND 3 NP CT_D8 CT_D9 CT_D10 GND SCLK-D GND 2 NP CT_D4 CT_D5 CT_D6 CT D7 GND GND 1 NP CT_D0 +3.3V CT_D1 CT D2 CT_D3 GND

47 CompactPCI Connector Pin Out

32-Bit And 64-Bit Backplane 32-Bit Pin Assignment Technical Specifications: PIN Z(6) ABC D EF 22 GND GA4(5) GA3(5) GA2(5) GA1(5) GA0(5) GND The CompactPCI specification defines both 21 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND P2 a 32-bit and a 64-bit implementation. Either 20 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND 19 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND C implementation can be accomplished on a 18 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND 3U daughter card. However, the 32-bit 17 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND O 16 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND implementation makes the entire P2/J2 32-Bit15 & 64-Bit GND BackplaneBP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND N connector (upper) available for user defined 14 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND I/O for slots 2-8. The controller card slot Technical13 Specifications: GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND N 12 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND (usually slot 1) makes use of some P2 pins 11 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND E for such functions as clock, arbitration, 10 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND 9 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND C grant/requests and some other system 8 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND functions. These pins are indicated with bold 7 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND T type to the right. 6 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND 5 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND O In 32-bit systems, the backplane connector 4 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND in the P2 position may have optional 16mm 3 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND R* 2 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND rear tails and a shroud so I/O signals may 1 GND BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) GND pass through the backplane to rear mounted 25 GND 5V REQ64# ENUM# 3.3V 5V GND 24 GND AD(1) 5V V(I/O)(3) AD(0) ACK64# GND cards or cable assemblies. 23 GND 3.3V AD(4) AD(3) 5V AD(2) GND *All standard Rittal RPxxxx modular CPCI 22 GND AD(7) GND 3.3V AD(6) AD(5) GND P1 21 GND 3.3V AD(9) AD(8) M66EN(4) C/BE(0)# GND backplanes are basically 64-bit. For 32-bit 20 GND AD(12) GND V(I/O)(3) AD(11) AD(10) GND C versions the P2 connector is not installed. If 19 GND 3.3V AD(15) AD(14) GND AD(13) GND P2 is used for I/O, please inquire. 18 GND SERR# GND 3.3V PAR C/BE(1)# GND O 17 GND 3.3V SDONE SBO# GND PERR# GND 16 GND DEVSEL GND V(I/O)(1)(3) STOP# LOCK# GND N 15 GND 3.3V FRAME# IRDY GND(2) TRDY# GND 12-14 KEY AREA N 11 GND AD(18) AD(17) AD(16) GND C/BE(2)# GND 10 GND AD(21) GND 3.3V AD(20) AD(19) GND E 9 GND C/BE(3)# IDSEL AD(23) GND AD(22) GND 8 GND AD(26) GND V(I/O)(3) AD(25) AD(24) GND C 7 GND AD(30) AD(29) AD(28) GND AD(27) GND 6 GND REQ# GND 3.3V CLK AD(31) GND T 5 GND BRSVP1A5 BRSVP1B5 RST# GND GNT# GND 4 GND BRSVP1A4 GND V(I/O)(3) INTP INTS GND O 3 GND INTA# INTB# INTC# 5V INTD# GND 2 GND TCK 5V TMS TDO TDI GND R* 1 GND 5V -12V TRST# +12V 5V GND PIN Z(6) ABC D EF

64-Bit CompactPCI Pin Assignments 64-Bit Pin Assignment In the case of the 64-bit CompactPCI, both the PIN Z(7) ABCDEF P1 and P2 connectors are fully assigned with 22 GND GA4(6) GA3(6) GA2(6) GA1(6) GA0(6) GND 21 GND CLK6 GND RSV RSV RSV GND P2 no pins available for user defined I/O. For such 20 GND CLK5 GND RSV GND(8) RSV GND systems, only 6U designs can have rear 19 GND GND GND(8) RSV RSV RSV GND C 18 GND BRSVP2A18 BRSVP2B18 BRSVP2C18 GND(8) BRSVP2E18 GND panel I/O. 17 GND BRSVP2A17 GND(8) PRST# REQ6# GNT6# GND O Although CompactPCI is designed to be 16 GND BRSVP2A16 BRSVP2B16 DEG# GND(8) BRSVP2E16 GND 15 GND BRSVP2A15 GND FAL# REQ5# GNT5# GND N accomplished on 3U cards, 6U implementa- 14 GND AD(35) AD(34) AD(33) GND AD(32) GND tions provide optional P3, P4 and P5 connec- 13 GND AD(38) GND V(I/O)(3) AD(37) AD(36) GND N tors, which all have undefined pins for user I/O. 12 GND AD(42) AD(41) AD(40) GND AD(39) GND 11 GND AD(45) GND V(I/O)(3) AD(44) AD(43) GND E 6U CompactPCI provides more user defined 10 GND AD(49) AD(48) AD(47) GND AD(46) GND pins than any other bus structure today. 9 GND AD(52) GND V(I/O)(3) AD(51) AD(50) GND C 8 GND AD(56) AD(55) AD(54) GND AD(53) GND *All standard Rittal RPxxxx modular CPCI 7 GND AD(59) GND V(I/O)(3) AD(58) AD(57) GND T backplanes are basically 64-bit. For 32-bit 6 GND AD(63) AD(62) AD(61) GND AD(60) GND 5 GND C/BE(5)# GND V(I/O)(3) C/BE(4)# PAR64 GND O versions the P2 connector is not installed. If P2 4 GND V(I/O)(3) BRSVP2B4 C/BE(7)# GND C/BE(6)# GND is used for I/O, please inquire. 3(3) GND CLK4 GND GNT3# REQ4# GNT4# GND R 2(3) GND CLK2 CLK3 SYSEN#(4) GNT2# REQ3# GND 1(3) GND CLK1 GND REQ1# GNT1# REQ2# GND 25 GND 5V REQ64# ENUM# 3.3V 5V GND 24 GND AD(1) 5V V(I/O)(3) AD(0) ACK64# GND Per CompactPCI Specification 2.0 R2.1, 23 GND 3.3V AD(4) AD(3) 5V AD(2) GND Sept. 2, 1998 22 GND AD(7) GND 3.3V AD(6) AD(5) GND P1 21 GND 3.3V AD(9) AD(8) M66EN(4)(5) C/BE(0)# GND Bold Face: These signals are only implemented 20 GND AD(12) GND V(I/O)(3) AD(11) AD(10) GND C in the system slot 19 GND 3.3V AD(15) AD(14) GND AD(13) GND 18 GND SERR# GND 3.3V PAR C/BE(1)# GND O (1) Early mate pins. (2) Late mate pins. 17 GND 3.3V SDONE SBO# GND PERR# GND (3) 3.3V or 5.0V. (4) Grounded in system slot. 16 GND DEVSEL# GND V(I/O)(1)(3) STOP# LOCK# GND N (5) Ground for a 33MHz backplane. Bussed slot 15 GND 3.3V FRAME# IRDY# GND(2)(3) TRDY# GND 12-14 KEY AREA N to slot in 66MHz systems. (6) Each slot may 11 GND AD(18) AD(17) AD(16) GND C/BE(2)# GND have a unique geographic address encoding. 10 GND AD(21) GND 3.3V AD(20) AD(19) GND E 9 GND C/BE(3)# IDSEL AD(23) GND AD(22) GND See the CompactPCI specification for details. 8 GND AD(26) GND V(I/O) AD(25) AD(24) GND C (7) Daughter cards do not make use of the “Z” 7 GND AD(30) AD(29) AD(28) GND AD(27) GND row grounds. (8) Boards built to version 1.0 do 6 GND REQ# GND 3.3V CLK AD(31) GND T 5 GND BRSVA5 BRSVB5 RST# GND GNT# GND not connect these grounds. 4 GND BRSVA4 GND V(I/O) INTP INTS GND O Note: Chart numbering conforms to the 3 GND INTA# INTB# INTC 5V INTD# GND 2 GND TCK 5V TMS TDO TDI GND R CompactPCI specification. Connector number- 1 GND 5V -12V TRST# +12V 5V GND ing is from top to bottom in accordance with the PIN Z(7) ABCDEF IEC standard.

48 RP1220 and RP1222 Modular 3U Technical Specifications: Power supply module capacity: Power Supply Backplane Two 3U, 8 HP CompactPCI power supply modules. According To PICMG 2.0 The second power supply can be used for redundancy or to supply extra current. Power Supply Overview: Power Input: The RP1220 and RP1222 is a 3.5U power plane, 16 AC Power In on J12 (AMP Mate-N-Lock) HP wide, to be used with the RP13xx series of CPCI A 2x3 style AMP Mate-N-Lock (AMP # 350732-1) backplanes. supplies AC/DC power to the backplane The RP1220 and RP1222 will accept up to two 150W (Connected to B2, B5 & B8 of the IEC 60603-2 power supplies operating in current sharing mode. Type M DIN41612). One possible mating AC or DC power is supplied to the power plane by connector for cable harness construction is the means of 3 or 2 “power taps” respectively. AMP 350715 part with tin contacts. The maximum There are 3 power headers on this power plane, for current from line to neutral is approximately 25 distribution of regulated power on the CPCI Amps. The following table describes the pinout of backplanes. this connector. The power backplane, combined with the cable DC Power In on J5 (AMP Mate-N-Lock) assemblies provide enough current capabilities to A second AMP 2x3 Mate-N-Lock provides transfer all the power available from the power alternate DC power input to the DIN 41612 supplies to the CPCI backplane. connector on pins B28 & B31. Chassis ground is One power backplane can supply power to one or also connected to this Mate-N-Lock. The following front view rear view more CPCI backplanes, subject to the current table to the left defines this pinout. requirements of the backplanes. Power Output: Three 20-pin ATX power headers provide DC power output to a connected backplane through a RP1600-16 cable assembly. Please inquire for our comprehensive RP1220/ RP1222 CompactPCI Backplane User Manual. RP1220 3.5U power supply IEC 60603-2 Type M backplane Connector Pinout For RP1220 backplanes A 3.5U x 16 HP Power Supply Backplane connector And Cable Harnesses For Pluggable for 2 PSU’s pinout Column Row A B C Power Supplies 3U

2 2 AC line RP1220 pluggable power supply backplane 5 5 AC Neutral with Type M connector ...... Part No. 3686553 8 8 No pin loaded RP1600-16 ATX (16 inch) connector cable 11 Mate-n- Lok 11 Chassis GRD assembly ...... Part No. 3686570 (AC-Input Power) ABC 13 13 N/C 3.3V EN# ATX Connector ATX RP1600-12 ATX (12 inch) connector cable 14 INH# 3.3V DEG# assembly ...... Part No. 9810337 15 ISH 3.3V FAL#

Sense RP1600-20 ATX (20 inch) connector cable Control Header Header 3U ATX Connector ATX 3.5U 20 16 5S- 3.3V 3.3V assembly ...... Part No. 9810338 22 17 5S+ 3.3V 3.3V 25 18 3.3V 3.3V 3.3V ATX Connector ATX

IEC 60603-2 TYPE M Connector IEC 60603-2 TYPE M Connector IEC 60603-2 28 19 +12V +12V +12V 31

Mate-n-Lok 20 -12V -12V -12V (DC-Input Power) 22 +5V 25 GRD 28 +DC Input 31 -DC Input

16HP front view

A 3.5U x 16 HP Power Supply Connector Pinout For RP1222 backplanes RP1222 3.5U power supply Backplane And Cable backplane for 2 PSUs Pin# Value Pin# Value Pin# Value Harnesses For Pluggable Power 1 +5VDC at 25A 17 +3.3VDC at 20A 33 +3.3V Sense Supplies 3U 2 +5VDC at 25A 18 +3.3VDC at 20A 34 Sense RTN RP1222 pluggable power 3 +5VDC at 25A 19 Return (common) 35 Not used supply backplane with Positronic Mate-n- Lok (AC-Input Power) 4 +5VDC at 25A 20 +12VDC at 5.5A 36 Not used Connector for RP150-TO PSUs

ATX Connector ATX Part No. 3686553 5 Return (common) 21 -12VDC at 0.5A 37 Not used RP1600-12 ATX (12 inch)

Sense 6 Return (common) 22 Return (common) 38 DEG# Control Header Header 3U ATX Connector ATX 3.5U connector cable assembly 7 Return (common) 23 Not used 39 INH# Part No. 9810337 Positronic PC147F 300A1 Positronic Positronic PC1477F300A1 Positronic 8 Return (common) 24 Return (common) 40 Not used ATX Connector ATX RP1600-16 ATX (16 inch) 9 Return (common) 25 Not used 41 Not used connector cable assembly Mate-n-Lok (DC-Input Power) 10 Return (common) 26 Not used 42 FAL# Part No. 3686570 11 Return (common) 27 EN# 43 Not used RP1600-20 ATX (20 inch) 12 Return (common) 28 Not used 44 Not used connector cable assembly Part No. 9810338 13 +3.3VDC at 20A 29 Not used 45 Chassis GND 16HP See power supply on page 57. front view 14 +3.3VDC at 20A 30 +5V Sense 46 AC Neutral 15 +3.3 at 20A 31 Not used 47 AC Line 16 +3.3VDC at 20A 32 Not used

49 RP1250/1255 Modular 6U Power Supply Backplane Technical Specifications: The RP1250/1255 is a 6.5U (or 6U) 8 HP wide power backplane. The RP1250/1255 may be used with the RP13xx, RP14xx or RP44xx series of modular CompactPCI backplanes, or in any other application where large supply currents are required. The RP1250/1255 will accept 1 Positronic type 500W power supply. Any power supply that is compatible with the backplane dimensions shown below can be used. Either AC or DC power is supplied to the power plane by means of a three contact Mate-N-Lock connector. There are 3 ATX-style power connectors on this power plane for distribution of regulated power to the modular CompactPCI backplanes. The connectors used are Molex “Mini-Fit Jr.” series headers or compatible connectors. These are the same connectors that are recommended for ATX style PC power supplies. The CompactPCI backplanes will be connected to the power backplanes by means of cable assemblies with mating “Mini-Fit Jr.” receptacles at either end. The RP1250/1255 also has several rows of power taps for use when large supply currents are required, or ATX connectors cannot be used. One power backplane can supply power to one or more CompactPCI backplanes, subject to the current requirements of the CompactPCI backplanes. The RP1250/1255 cannot be used to supply power to standard ATX devices. The ATX connectors are intended for use with the RP13xx and RP14xx series of CompactPCI backplanes. Using these connectors in other applications is possible, but in general the RP1250/1255 cannot be used in place of an ATX-compliant power supply. front view rear view The figure depicts the RP1250 power supply backplane. Components with a solid outline are located on the back of the RP Backplane User RP1250 6.5U x 8 HP power supply Manuals. backplane (front view) Please inquire for our comprehensive RP1250/1255 CompactPCI Positronic PC138F300A1 connector Backplane User Manual. pinout & mechanical location For the 21 signal pin positronic connector 21 signal pin version Pinout: Pin(s) Signal 38 AC Line (Input Power) Mate -n- Lock 37 AC Neutral Local Sense 36 Chassis GND

Control Header Control 35 FAL# 34 ISHARE12V

Postronic PCI138F300A1 Postronic 33 ISHARE3V 32 ISHARE5V 38

GND 37 31 INH# 36 6U 30 SENSE12V

6.5U 35 34 33 32 31 +3V 30 29 28 27 29 DEG# 26 25 24 23 22 GND 21 28 RSVD 20 19 27 SENSE3V +5V 26 SENSEGND 25 EN# GND 24 SENSE5V +5V 23 GND 4 3 2 1 22 GND GND 21 -12V

+12V 20 48V RTN (unused)

ATX ConnectorATX Connector ATX Connector ATX 19 48V OUT (unused) +12V 18 +12V 17 GND BackplaneBackplaneBackplane Power Power Connector Power Connector Location Connector Location as viewed Location fromas viewed from 16-13 +3.3V the front of the subrack as viewed fromthe front the offront the subrackof the subrack 12-5 GND 4-1 +5V A 6.5U x 8 HP Power Supply Backplane And Cable Harnesses For Pluggable Power Supplies, RP350-TR, 6U RP1250 pluggable power supply backplane for RP350-TR PSUs ...... Part No. 3686684 RP1255 pluggable power supply backplane for RP350-TO PSUs ...... Part No. 9810336 RP1600-12 ATX (12”) connector cable assembly ...... Part No. 9810337 RP1600-16 ATX (16”) connector cable assembly ...... Part No. 3686570 RP1600-20 ATX (20”) connector cable assembly ...... Part No. 9810338

50 RP1240/41/45 Modular 6U Power Supply Backplane Technical Specifications: The RP1240/41 is a 6.5U (or 6U) 16 HP wide power backplane. It may be used with the RP13xx or RP14xx series of modular CompactPCI backplanes, or in any other application where large supply currents are required. The RP1240/41 will accept up to 2 Positronic Type 500W power supplies operating in current sharing mode. Any power supply that is compatible with the backplane dimensions shown in Figure 3 can be used. Either AC or DC power is supplied to the power plane by means of a six contact Mate-N-Lock connector. There are 5 ATX-style power connectors on this power plane for distribution of regulated power to the modular CompactPCI backplanes. The connectors used are Molex “Mini-Fit Jr.” series headers or compatible connectors. These are the same connectors that are recommended for ATX-style PC power supplies. The CompactPCI backplanes will be connected to the power backplanes by means of cable assemblies with mating “Mini-Fit Jr.” receptacles at either end. The RP1240/41 also has several rows of power taps for use when large supply currents are required, or ATX connectors cannot be used. One power backplane can supply power to one or more CompactPCI backplanes, subject to the current requirements of the CompactPCI backplanes. The RP1240/41 cannot be used to supply power to standard ATX devices. The ATX connectors are intended for use with the RP13xx, RP14xx and RP44xx series of CompactPCI backplanes. Using these connectors in other applications is possible, but in general the front view rear view RP1240/41 cannot be used in place of an ATX-compliant power supply. Positronic PC138F300A1 connector pinout & mechanical location The figures below depicts the RP1240/41 power supply backplane. Components with a solid outline are located on the front of the 21 signal pin version backplane. Components with a dotted outline are located on the back. The second figure depicts the RP1241 backplane, which is a partially loaded version of the RP1240.

Backplane Top Edge Please inquire for our comprehensive RP1240/41/45 CompactPCI Backplane User Manual.

38

37

36

35 34 33 32 31 A 6.5U x 16 HP Power Supply Backplane For 2 Pluggable 30 29 28 27 26 25 24 23 22 Power Supplies RP350-TR, 6U 21 20 19 RP1240 pluggable power supply backplane for RP 350-TR PSUs ...... Part No. 3687881 Backplane power connector location as RP1245 pluggable power supply 4 3 backplane for RP 350-TO PSUs ...... Part No. 3687973 2 1 viewed from the front of the subrack RP1241 pluggable power supply backplane 2 PSUs ...... Part No. 3686679 RP1600-12 ATX (12”) connector cable assembly ...... Part No. 9810337 RP1600-16 ATX (16”) connector cable assembly ...... Part No. 3686570 RP1240 6.5U x 16 HP RP1241 6.5U x 16 HP power supply power supply RP1600-20 ATX (20”) backplane (front view) backplane (front view) connector cable assembly ...... Part No. 9810338 For 3 slot PSU backplanes (3x8 HP), please inquire (Input Power) (Input Power) Mate -n- Lock Mate -n- Lock Header Header Local Sense Local Sense Control Header Control Header Control Postronic PCI138F300A1 Postronic PCI138F300A1 Postronic Postronic PCI138F300A1 Postronic PCI138F300A1 Postronic

+12V +12V +12V +12V +12V +12V +12V +12V 6U 6U 6.5U 6.5U GND GND GND GND GND GND GND GND

GND GND GND GND GND GND GND GND

+3V +3V +3V +3V +3V +3V +3V

+5V +5V +5V +5V +5V +5V +5V +5V +5V

ATX Connector 48V ATX Connector OUT

ATX Connector ATX Connector GND ATX Connector ATX Connector

ATX Connector ATX 48V Connector ATX ATX Connector RTN ATX Connector

51 RP1130 Modular Backplane Bridges Technical Specifications: The RP1130 is a unique rear-bridge designed to extend the CompactPCI bus from 8 slots to larger configurations. CompactPCI has been designed to accommodate up to 8 slots on a bus segment. Installing a bridge on a bus consumes one of the loads (slots) on the segment but creates a new bus segment with up to 7 additional backplane slots. The bridge handles all communica- tion between the bus segments (modular backplanes). Our rear mounting method enables larger configurations to be constructed without wasting valuable front slots to bridging functions, thus enabling a larger number of usable slots. In the RP modular series of backplanes, RP1130 bridge is used to link together multiple backplane modules. This allows backplanes with any number of slots to be constructed. The RP1130 is a 64-bit bridge and can be used with either the RP1300 (3.5U), RP1400 (6.5U), or the RP4400 series of backplanes. Technical Specifications • Form factor - Rear-mounting “pallet module” - PCI bridge • 64-bit high performance DEC 21154 • Compatible backplanes - Any backplanes in the RP13xx, RP44xx and RP14xx modular CompactPCI series • Compliance - PCI 2.1 compliant - CompactPCI Rev 2.1 compliant inside view outside view - Bridge module features This bridge is a “pallet” module bridge (a proprietary format defined by RP). This allows the bridge to be mounted on the rear of the RP1130 bridge module block diagram backplanes, so that the maximum number of slots is available on the front of the backplanes. Features Primary CPCI Bus Secondary CPCI Bus • The bridge is a 64-bit PCI to PCI bridge, using the DEC 21154 bridge chip. 17 PCI Bus //PCI Bus • The bridge module bridges from right to left. (When mounted on 17 Arbitrition /PCI-PCI /Arbitrition the backplane and viewed from the front, the right connec- 1Bridge 7 tor will act as a peripheral, while the left connector will act as a PCI Bus //PCI Bus host). Clock Clocks DEC211154 • The same bridge module is compatible with both 3.5U, 6.5U 64-bit 64-bit backplanes and 7U backplanes. PCI Bus //PCI Bus General General Please inquire for our comprehensive RP1130 CompactPCI Backplane Bridge User Manual.

Modular CompactPCI Rear Backplane Mounted 64-Bit Bridge RP1130 64-bit modular backplane bridge ...... Part No. 3686571

Note: When mounting this bridge to the rear of the CPCI backplane, rear mounted I/O boards may have to be shortened by approx. 3mm in the area of this bridge. A new bridge is under development which does not require this shortening of the rear I/O board.

52 Rittal CompactPCI Power Supplies... FEEL THE POWER. Power Up With Rittal Ripac. Nobody delivers power to your system like Rittal Ripac. Our RiPower line includes an extensive offering of 3U and 6U pluggable power supplies, open frame power supplies and ATX power supplies—all designed specifically for CompactPCI applications. More innovation and non-stop commitment from Rittal Ripac to provide electronic packaging solutions in pace with today’s emerging technologies.

53 R ITTAL RIPAC

Pluggable CompactPCI Power Supplies 6U 350 Watt-TR ...... Pages 55-56 3U 150 Watt-TO ...... Page 57 6U 350 Watt-TO ...... Page 58

Open Frame CompactPCI Power Supplies 200/300 Watt-TO ...... Page 59 500/750 Watt-TO ...... Page 60

ATX CompactPCI Power Supplies 235 Watt-ATX...... Page 61

54 CompactPCI Pluggable Power Supplies... 6U 350 WATT-TR. RiPower 350-TR The 350 Watt-TR is a high-performance power supply for use in 6U CompactPCI computer, test and measurement, industrial automation and telecom systems. The 350-TR meets all of the requirements of the PICMG CompactPCI specification, plus N+1 redundancy, current sharing, and hot swappable capabilities. High-density cooling fins are positioned directly in the airstream. All input and output connections are through the backplane. LED status indicators located on the front panel. 6U x 8 HP x 160mm form factor.

Part No. Input voltage Output voltage maximum current 3686677 90-264 VAC, 6A max 5V/40A, 3.3V/2.5A, +12V/9A, - 12V/2A 3686685 90-264 VAC, 6A max 3.3V/60A, 5V/20A, +12V/9A, - 12V/2A 3686686 40-60 VDC, 14A max 5V/40A, 3.3V/25A, +12V/9A, - 12V/2A 3686687 40-60 VDC, 14A max 3.3V/60A, 5V/20A, +12V/9A, -12V/2A

For power supply backplanes, see pages 50-51. Guide rail Part No. 3684669 2 pieces are required.

Features: RiPower 350-TR Status Indicator Condition Power supply Input OK Fault Fault# • 350 Watts 6U x 8 HP (2 slots) x 160mm on/off LED LED • Wide-range AC or 48 Volt DC input Inputs/outputs OK, EN# low On On Off Open • Standard PCI voltages: 5V, 3.3V, ±12V INH# signal low Off On On Low • Four output-current options: INH# high, EN# high Off On On Low 5V/40A, 3.3V/25A, +12V/9A, -12V/2A Low AC or DC input Off Off On* Low 5V/50A, 3.3V/25A, +12V/9A, -12V/2A 3.3V/50A, 5V/20A, +12V/9A, -12V/2A Internal over-temperature Off On On Low 3.3V/60A, 5V/20A, +12V/9A, -12V/2A Output under-voltage Off** On On Low • Power correction factor (PFC) Output over-voltage Off** On On Low • N+1 redundant and hot swap Output short circuit Off** On On Low • Internal OR-ing diodes *If the input is below approx. 20V, the FAULTED LED will not illuminate. • Single-wire current sharing on 5V, 3.3V, **Typically, only the output exhibiting the fault conditions will be off. +12V outputs • Fully shielded • IEEE1101.10 compliant front panels • Ruggedized mechanical design 350 • Optional high-profile cooling fins available 300 on 48V input version 400 LFM 250 • UL, CUL approval pending 300 LFM Output 200 LFM • TUV approval pending Power 200 (Watts) 100 LFM • CE mark pending 150 • EMC approvals pending 100 • Two year warranty 50 0 20 30 40 50 60 70

Note: LFM is the airflow in feet per minute average through the power supply enclosure.

55 Specifications: Output Power 350 Watts Power Factor 0.99 typical Inrush Current 40 A max. Efficiency 75% typical Holdup Time 20 msec min. from input power failure until FAIL# signal drops, at full load and 90-264 Vac. AC Fail Warning 5 msec min. continued operation after CompactPCI FAIL# signal drops. POWER SUPPLY Paralleling Any number of power supplies can be

operated in parallel and will share INPUT OK FAULT

3.3V/5V/+12V current to within 10%. PUSH TO START Redundant/Hot Swap Full power N+1 redundant and hot 6U swap operation. Remote Sense Compensates for up to 0.25V total distribution voltage drop on the 3.3/5V/ +12V outputs. Line/Load Regulation 0.5% max. over AC input range and 0- 100% load. Ripple/Noise 50 mV max. for all outputs, peak-to-peak, dc to 20MHz with coaxial probe and 0.1 uF/22uF capacitors at the connector. (6.300) Injector/extractor 160mm Overshoot/Undershoot None at turn-on or turn-off. 8HP IEEE 1101.10 Turn-On Time 1 sec max. from AC power up. All output compatible voltages come up within 10msec of each 2 Slots (8HP) other. Connector Pinout Positronic PC138M400A1 (15 signal pin) Current Limiting All outputs protected against overload and short circuit. Straightline current Pin # Signal Name Usage limiting, does not fold-back or latch-up 1, 2, 3, 4 +5V 5V DC output power during startup or load transients. Auto- 5-12, 17 GND Power returns matic recovery. 13, 14, 15, 16 +3.3V 3.3V DC output power 18 +12V 12V DC output power Over-Voltage Shutdown at 130% of nominal Vout. 19, 20, 28 RSVD RESERVED Recycle power to reset. 21 -12V -12V DC output power Over-Temperature Shutdown at internal heatsink tempera- 22, 23 GND Signal return ture of 95°C. Recycle power to reset. 24 +5S Remote sense for 5V output Safety EN60950 25 EN# Enable input signal EMC EN55022 Class A conducted and 26 -Sense Remote sense return for +5S, +3.3S, +12S signals radiated. EN60555-2 harmonic 27 +3.3S Remote sense for 3.3V output distortion. 29 DEG# Degrade output signal Input Fuse Internal one-pole 10A NTD fuse. 30 +12S Remote sense for 12V output Output Isolation All outputs and control signals are 31 INH# Inhibit input signal 32 +51 5V current share floating SELV circuits referenced to GND 33 +3.31 3.3V current share and with 0.1uF/100kOhms to chassis 34 +121 12V current share ground and reinforced isolation to the AC 35 FAIL# Fail output signal primary. Can be connected directly to 36 CGND Chassis ground chassis ground on the system 37 N Neutral (AC input) or backplane. 48V return (DC input) 38 L Line (AC input) or -48V (DC input). Leakage Current 1.5 mA max. at 240 Vac. Internally fused. Dielectric Strength 2200 Vdc from either AC input to chassis ground. Indicators Green LED indicating INPUT OK. Red 38 LED indicating a power supply FAULT. 37 Connector Positronic part no. PC138M400A1 36 Cooling 34 35 15cfm/400 Lfm forced air required 33 through power supply cooling fans 31 32 30 and enclosure. 26 38 27 ° ° 25 38 Operating Temperature Full power from -20 C to +35 C with 24 22 38 specified air flow. Consult factory for 21 derating with reduced airflow or 19 20 increased temperature conditions. 17 18 Storage Temperature -40°C to +85°C. 15 16 Shock/Vibration Ruggedized construction to Mil-Hdbk 13 14 810E. 11 12 9 10 Dimensions See drawing. 7 8 5 6 3 4 1 2

56 CompactPCI Pluggable Power Supplies... 3U 150 WATT-TO. RiPower 150-TO The RiPower 150 Watt-TO is a high-performance power supply for use in 3U CompactPCI computer, test and telecom systems. The RiPower 150-TO meets all of the requirements of the PICMG CompactPCI specification plus N+1 redundant and hot swap. High density cooling fins are positioned directly in the air stream. All input and output connections are through the backplane. LED status indicators and a push-button inhibit switch are located on the front panel. Features: • Size: 3U x 8 HP (2 slots) x 160mm depth • Connector: Positronic PC147M400A1 • AC Input: 90 - 264 VAC continuous range (47-63Hz), single phase or DC Input: 48VDC • Standard PCI Voltages: 5V / 3.3V / +12V / -12V • Two input-voltage/current options • Power factor 0.99 typical • Efficiency 70% typical • N+1 redundant and hot swap • Internal OR-ing diodes • Current sharing on 5V / 3.3V / +12V outputs • Fully shielded • IEEE 1101.10 compliant EMC front panel • Ruggedized mechanical design • -20°C to +40°C operating temperature with specified airflow • 15cfm/400lfm forced air required • CE mark pending • UL 1950, EN60950, CSA 950 • EMC: FCC level A, CISPR level A, EN55022 level A • Three year warranty RiPower 150-TO Input Voltage/Current 90 to 264 VAC @ 6A max Guide rail (2 pcs. are required). Part No. 3687832 green 1 piece Output 1 Output 2 Output 3 Output 4 Part No. Output Voltage 5V 3.3V +12V -12V - Output Current 25A* 20A* 5A 1A 3687882

*Maximum combined current is 25A. For 160 plug-in depth

Input Voltage/Current 36 to 72 VDC @ 12A max Output 1 Output 2 Output 3 Output 4 Part No. 8 HP Output Voltage 5V 3.3V +12V -12V - Output Current 25A* 20A* 5A 1A 3687883 Status Indicator LEDs Fault and Input *Maximum combined current is 25A. 3U Please inquire for separate data sheets. Single Height Connector Positronic PC147M400A1 (24 signal pin) Pin# Value Pin# Value Pin# Value 1 +5VDC at 25A 17 +3.3VDC at 20A 33 +3.3V Sense 2 +5VDC at 25A 18 +3.3VDC at 20A 34 Sense RTN 10.0 (.39) 3 +5VDC at 25A 19 Return (common) 35 Not used Insertion/extraction handle 4 +5VDC at 25A 20 +12VDC at 5.5A 36 Not used IEEE 1101.10 Compatible 5 Return (common) 21 -12VDC at 0.5A 37 Not used 6.61 (.26) ISP to guide 6 Return (common) 22 Return (common) 38 DEG# rail offset 7 Return (common) 23 Not used 39 INH# 8 Return (common) 24 Return (common) 40 Not used Power supply connector 9 Return (common) 25 Not used 41 Not used Positronic Industries, Inc. P/N PC147M400A1 10 Return (common) 26 Not used 42 FAL# mates with Positronic 11 Return (common) 27 EN# 43 Not used Industries, Inc. P/N PC147F300A1 12 Return (common) 28 Not used 44 Not used 13 +3.3VDC at 20A 29 Not used 45 Chassis GND 14 +3.3VDC at 20A 30 +5V Sense 46 AC Neutral 15 +3.3VDC at 20A 31 Not used 16 +3.3VDC at 20A

57 CompactPCI Pluggable Power Supplies... 6U 350 WATT-TO. RiPower 350-TO The RiPower 350 Watt-TO is a high-performance power supply for use in 6U CompactPCI computer, test and telecom systems. The RiPower 350-TO meets all of the requirements of the PICMG CompactPCI specification plus N+1 redundant and hot swap. Cooling vents are positioned directly in the air stream. All input and output connections are through the backplane. LED status indicators and a push-button inhibit switch are located on the front panel. Features: • Size: 6U x 8 HP (2 slots) x 160mm depth • Conector: Positronic • AC Input: 90-264 VAC continuous range (47-63Hz), single phase or DC Input: 48VDC • Standard PCI Voltages: 5V / 3.3V / +12V / -12V • Two input-voltage/current options • Power factor 0.99 typical • Efficiency 65% typical • N+1 redundant and hot swap • Internal OR-ing diodes • Current sharing on 5V / 3.3V / +12V outputs • Fully shielded • IEEE 1101.10 compliant EMC front panel • Ruggedized mechanical design • -20°C to +40°C operating temperature with specified airflow • 15cfm/400lfm forced air required • CE mark pending • UL, CUL, TUV approvals pending • EMC approvals pending • Three year warranty RiPower 350-TO Input Voltage/Current 90 to 264 VAC @ 6A max Output 1 Output 2 Output 3 Output 4 Part No. Output Voltage 5V 3.3V +12V -12V - Output Current 50A* 40A* 2A 2A 3687884 *Maximum combined current is 50A.

Input Voltage/Current 36 to 72 VDC @ 12A max Output 1 Output 2 Output 3 Output 4 Part No.

CompactPCI Output Voltage 5V 3.3V +12V -12V - POWER SUPPLY Output Current 50A* 40A* 2A 2A 3687885

*Maximum combined current is 50A. INPUT OK FAULT

PUSH TO Please inquire for seperate data sheets. START 6U Connector Pinout – Positronic PC138M400A1 (15 signal pin) Pin # Designation Pin # Designation 1 +5V 20 Not used 2 +5V 21 -12V 3 +5V 22* GND 4 +5V 23 GND 5 GND 24 +5V Sense 6 GND 25* Enable 7 GND 26 +5V & +12V Sense return (6.300) 8 GND 27 3.3V Sense Injector/extractor 160mm 8HP IEEE 1101.10 9 GND 28* Not used compatible 10 GND 29 DEG# 2 CPCI 11 GND 30 +12V Sense Slots 12 GND 31 Inhibit 13 +3.3V 32 Not used • Guide Rail Part No. 3684669 (2 pieces required). 14 +3.3V 33 Not used 15 +3.3V 34 Not used • For power supply backplanes, see pages 50-51. 16 +3.3V 35 FAL# 17 GND 36 Chassis ground 18 +12V 37 AC Neutral or 48V In Return 19 Not used 38 AC Line or 48V In Pins 22,25,& 28 are last mate, first break pins.

58 CompactPCI Open Frame Power Supplies... 200 & 300 WATT-TO. RiPower 200W-TO The RiPower 200W-TO power supply provides simultaneous high current on both 5V and 3.3V outputs. The load may be shifted between outputs. For example: the RiPower 200W-TO may be loaded at 5V @ 25A and 3.3V @ 5A, or 5V @ 10A and 3.3V @ 20A, or any other combination of loads within the maxi- mum ratings. Similarly the +/-12V may be loaded in any combination not exceeding maximum ratings. The RiPower 200W-TO provides for CompactPCI a single solution as systems configurations proliferate, reducing cost and cycle time. Features: • Dual main outputs • Flexible ratings • 5V “Keep Alive” bias output • Universal AC input • 0.99 typical power factor • Remote sense on main outputs • DC power good and AC power fail • True remote inhibit • High current busbars

Safety agencies: Approved to UL 1950; CSA 22.2 # 234 (950); TUV EN60950, Class 1 SELV; Input Voltage/Current 90 to 264VAC @ 4A max CE 72/23/EEC/93/68EEC (low voltage directive). Conducted RFI: Meets FCC part 15, sub part B level A, and CISPR 22 level A. Output 1 Output 2 Output 3 Output 4 Part No. Output Voltage 5V 3.3V +12V -12V 3687886 Output Current 30A* 20A* 5A** 1A** * Combined rating, sum of output currents of outputs #1 and #2 equals 30A. ** Combined rating, sum of output currents of outputs #3 and #4 equals 5A. Please inquire for separate data sheets.

RiPower 300W-TO The RiPower 300W-TO power supply offers a combination of outputs designed for systems that require both high current 5V and 3.3V outputs. Outputs #2 and #3 provide +/-12V up to 8A. The RiPower 300W-TO is extremely flexible and it can be cooled using system airflow or by an integral ball bearing fan. Its fourth output is fully isolated and is easily configured to your system requirements. Features: • Quad output • Floating wide-range fourth output • Flexible ratings • Universal AC input • 0.99 typical power factor • Remote sense on main outputs • AC power fail • Available with or without fan • Safety agency approved

Input Voltage/Current 90 to 264VAC @ 7A max Output 1 Output 2 Output 3 Output 4 Part No. Safety agencies: Approved to UL 1950; CSA 22.2 # 234 (950); TUV EN60950, Class 1 SELV; CE 72/23/EEC/93/68EEC (low voltage directive). Output Voltage 5V 3.3V +12V -12V 3687887 Conducted RFI: Meets FCC part 15, sub part B level A, and CISPR 22 level A. Output Current 30A 15A 8A 4A Please inquire for separate data sheets.

59 CompactPCI Open Frame Power Supplies... 500 & 750 WATT-TO. RiPower 500W-TO This standard RiPower 500W-TO does not have a 3.3V output (3.3V regulation may be on the plug-in unit board from 5V). If a 3.3V output is required, please inquire. Overload-, overvoltage-, thermal-protection and integral covers are standard. The RiPower 500W-TO includes a fan and all outputs are adjustable. Integral RFI filters allow the power supply to meet con- ducted emissions of EN55022 class B and FCC class A. Compliance is also provided for international safety requirements including IEC 60950 and the requirements of IEC 60555-2 for harmonic line distortion. Features: • Forced current sharing N+1 redudancy • Remote sense on outputs #1 and #2 • Universal AC input • 0.99 typical power factor • Dual converter design eliminates interaction between logic and auxiliary outputs • Low ripple and noise on all outputs • DC power good and AC power fail signals • True remote inhibit • Monotonic turn-on and turn-off Safety Agencies: Most models are approved to UL 1950: CSA 22.2 #234: IEC 950 and TUV EN60950. Class 1 SELV..CE 72/23/EEC/93/68EEC (low voltage directive).. Input Voltage/Current 9 to 264VAC @ internally fused for 10A Conducted RFI: Meets FCC Part 15. Subpart B. Class A: EN55022 Class B: CISPR 22 Class B. Output 1 Output 2 Output 3 Part No. Output Voltage +5V +12V -12V 3687888 Output Current 75A at 8/12 Apk 4A Please inquire for separate data sheets.

RiPower 750W-TO This standard RiPower 750W-TO does not have a 3.3V output (3.3V regulation may be on the plug-in unit board from 5V). If a 3.3V output is required, please inquire. Overload-, overvoltage-, thermal-protection and integral covers are standard. The RiPower 750W-TO includes a fan and all outputs are adjustable. Integral RFI filters allow the power supply to meet con- ducted emissions of EN55022 class B and FCC class A. Compliance is also provided for international safety requirements including IEC 60950 and the requirements of IEC 60555-2 for harmonic line distortion. Features: • Forced current sharing N+1 redudancy • Remote sense on outputs #1 and #2 • Universal AC input • 0.99 typical power factor • Dual converter design eliminates interaction between logic and auxiliary outputs • Low ripple and noise on all outputs • DC power good and AC power fail signals • True remote inhibit • Monotonic turn-on and turn-off

Safety agencies: Most models are approved to UL 1950: CSA 22.2 #234: IEC 950 and TUV Input Voltage/Current 9 to 264VAC @ internally fused for 15A EN60950. Class 1 SELV..CE 72/23/EEC/93/68EEC (low voltage directive).. Conducted RFI: Meets FCC Part 15. Subpart B. Class A: EN55022 Class B: CISPR 22 Class B. Output 1 Output 2 Output 3 Part No. Output Voltage +5V +12V -12V 3687889 Output Current 120A at 12/20 Apk 10A Please inquire for separate data sheets.

60 CompactPCI ATX Power Supplies... 235 WATT-ATX. RiPower 235W-ATX The RiPower 235W-ATX power supply was designed for the ATX industrial PC environment and is a low cost alternative. An adaption rear panel permits the RiPower 235W-ATX power supply to be mounted to the rear side of a CompactPCI system in a horizontal orientation (3U), or a vertical orientation (6U).The RiPower 235W-ATX includes connection cables for 5 1/4” and 3 1/2” drives. Features: • Size: 86mm wide x 150mm high x 140mm deep • Connector: ATX on DC power cables • AC Input: 90 to 132VAC or 180 to 264VAC (47 to 63Hz) • Standard PCI voltages: 5V / 3.3V / +12V / -12V • Remote on/off control • Operation at no load • Short circuit save • Built-in fan • Efficiency: 65% • Power good signal • Power fail signal • Operating conditions: 0°C to +50°C • Safety Requirements: CSA C22.2 / UL 1950 / IEC 60950 VDE 080805 / NEMKO (CB Report) • Emission requirements: FCC class B / CE / CISPR 22 IEC 61000-3-2 class D • Acoustic noise: 32 dBA • Reliability: exeeding 100,000 h at +25°C ambient.

ATX Power Supply: Technical Data: System mounted 235 W max • Built-in fan • +5 V/14 A • Short circuit save • +3.3 V/22 A • CSA approved • +12 V/8 A 1 • Connection cables for 5 /4” • -12 V/1 A 1 and 3 /4” drives and CPCI backplane • CPCI system rear panels for ATX PSU mounting

ATX PSU Part No. ATX PSU 3687793 1 piece 106.36 [21 HP] 213.04 [42 HP]

CPCI System Rear Panels U HP Packs of CPCI system rear panels EMC Non-EMC 128.7 [3U] Part No. 3421 3685331 3685328

262.05[6U] Non-EMC Output6211 voltage and current 3685332 3685329

Minimum Maximum Load Cross Line Ripple Load Load Reg. Reg. Reg. & Noise 106.36 [21 HP] 213.04 [42 HP] *+3.3V 0.2A 14.0A ±4% ±4% ±1% 50mV P-P +5V 2.0A 22.0A ±5% ±5% ±1% 50mV P-P +12V 0.0A 8.0A ±5% ±5% ±1% 120mV P-P -5V 0.0A 0.5A ±5% ±5% ±2% 150mV P-P -12V 0.0A 0.8A ±5% ±5% ±2% 150mV P-P 128.7 [3U] +5Vsb 0.0A 0.8A ±5% ±5% ±1% 50mV P-P

+3.3V & +5V total output not excel 125 watts. 262.05 [6U] EMC *Optional.

61 C Guide Rails 3 xKeyingChambers Typical data Climatic Condition:+72ºF@51%RelativeHumidity Ripac Vario EMCSubrack (AllGasketsAreInstalled) EMC Compatibility Typical data Without EMCGasketing (dB) 100 OMPACT 20 40 60 80 (dB) 80 70 10 20 30 40 50 60 5 0 30 See Fig8-9 See Fig12 01000 10 Pitch Line 40 50 M.)(.4 25)(2.54) (2.54) (2.54) (M2.5) 60 70 80 90 100 100 15.24 (4.07) (3 x5.08) 200 3HP (4.07+2.54 off-set) 10.16 ± (4 x5.08) 0.05 4HP ± (6.61) 300 0.05 400 (5.08) 1HP PCI T 500 600 Chamber Unit AlignmentPin Board Type Plug-in (3.4ø 3 x2.5 (5.08 +0.05) (2.54) Front View Pitch Line 700 Supply GuideRail Pluggable Power The CPCI MHz ± 0.05) 1000 ± 0.05) 10000 (F) Guide Rail The CPCI Optional Rittal Guide IEEE1101.11 (Hot Swap) Mis-insertion Rail Pr events PCB ECHNICAL ChooseanEMCgasketdesignwhichis“segmented,” thusinsuringguaranteedcontact • To prevent EMCgasketdamage,make sure thattheEMCgasketsdo not passoverthePCB • TheuseoftheIEEE1101.10specified“alignmentpin”prevents stackingofEMCgasket • LookoutforasubracksystemsolutionwhichcanbeusedinbothNon-EMC, as wellin • UsesoldersidecoversonthePCBcomponent2toprevent, amongstpossible • Lookattheanti-shockandvibrationtestresults fortheemptysubracksystem,asthismay • LookatEMCtestresults fortheemptysubracksystem.LookagainatEMCtestresults • • Tips: must beconcentric,aswelllowresistive andlowinductive. capacitors. Whenshieldedcableisused,thesubrackinterconnection ofthecableshield compliance. To prevent this,unshieldedcablemustbepassedthrough filtersorterminating resultsUnshielded cableentry intotallossofairshieldingprovided byIEEE1101.10 also presents specialrequirements forI/O(input/output)andpowercableconnections. testvaluescanprovide help.AssemblingEMCsubracksystems(CPCI) EMC performance values are asspecified inIEEE1101.10andtheIEC/ exceeded,theEMCshieldinginterfaces electromagnetic radiationorbeinfluencedbyinterference from theoutside.Whenthreshold standards. Onlywhentheactiveboardsare installedthe(CompactPCI)systemwillemit “Empty” subracksystemswithoutanyactiveboards hadneverbeencovered byanEMC Compatibility (EMC) IEEE 1101.10Electromagnetic and the front panel injection/extraction handle, etc. have to perform 400cyclesaswell. and thefront panelinjection/extractionhandle,etc.havetoperform points in at least every 25mminterval. points inatleastevery cannot be“overcompressed,” retaining theircontactpressure. to front panelmountingscrew heads.Make sure thatthegasketson PCB front panels pressure board initsdefinedslotallocation. tooneside,keepingevery This maysaveyoutimeandmoneywhenencounteringunforeseen EMCproblems). instead ofhavingtoreplace itwithan(alternative) EMCcompatiblesubracksystemversion. an EMCenvironment (bysimplyaddingEMCGasketstotheNon-EMCsubracksystem component orelectricalproblems, EMCgasketdamage. ofyoursystem. effect thelong-termEMCperformance Note: performed after the sameemptysubracksystemhasundergone anindustrialagingtest. performed anticipated. managementsystemsolutionforthemaxperformance airflow members ofthesubrackand“slimness”guiderailsforPCBs).Lookagood capability(openingbetweenthehorizontal Look outforsubrackswithmaxPCBairflow

If the max connector insertion/extraction operationsareIf themaxconnectorinsertion/extraction 400cycles,theEMCgasket • ForCompactPCI,chooseadesignwhichoffers optionalred guide • Chooseanon-metallicdesigntoprevent metalpowder, shavedoff ofPCBs(hotswap). • Chooseadesignwhichprevents mis-insertion variousPCBthicknesses • Chooseadesignwhichwillpermit dynamicdesign. • Chooseanairflow Tips: mechanism. earthing (.8”) wideandincludeschambersforakeyingalignmentpin, (.4”) wide,thewidthofIEEE1101.10ismax20.32mm VME64) guiderailwhichhappenstobemax10.16mm(2HP). subrack isthePCBguiderail.BasedonIEEE1101.1(VME, featuresOne ofthemostimportant oftheIEEE1101.10compatible IEEE 1101.10PCBGuideRails pluggable powersupply. rails forsystemslotindentificationandoffset guiderailsfor destroy sensitivecomponents. by thePCBFR4,tomigrate(electricallycharged)upand (1.6-2.5mm). D ATA . 62 ESD Protection

0.1 (2.5) IEEE 1101.10 ESD Protection 0.06 (1.5X) Two principle approaches for ESD protection are part of the IEEE 0.02 (0.5) 1101.10 standard. Detail A 80 The intention of the first approach is to bleed off static electricity when inserting a PCB into the subrack system. The second intention is to bleed off static electricity when an I/O cable is connected to an 0.1 (2.54) Radius Fillet already installed PCB front panel in a live system. The first approach 10 MOhm FRONT PANEL requires an ESD strip on the PCB component side, top and/or Detail A 0.54 (13.7) bottom. 10 MOhm 0.36 (9.0) Strip 3Strip 2 Strip 1 Every ESD compatible subrack system has the capability of a defined ESD contact clip embedded in the front end of the guide rail (slot) connected to the chassis GND. The corresponding ESD contact strip(s) on the PCB provide for either (optional) continuous 0.49 (12.5) 1.57 (40.0) 2.36 (60.0) 2.75 (70.0) 11.77 (45.0) 0.23 (5.9) 3.149 (80.0) contact with the ESD clip even after the PCB is fully inserted into the NOTES: 1) ESD TRIP LOCATIONS ARE TO BE PROVIDED backplane connector or break contact between the ESD strip on the AT BOTH PRIMARY AND SECONDARY SIDES OF PCB PCB and the ESD clip(s) in the subrack system before connector 2) ONLY THE BOTTOM OF HOT SWAP BOARDS engagement takes place. In either case the PCB/ESD discharge strip ARE SPECIFIED FOR ESD STRIP LOCATIONS 3) THIS DRAWING APPLIES TO THE BOTTOM OF 3U may be segmented and a resistor(s) may be required between the AND 6U BOARDS ESD discharge strip on the PCB and the power return to limit the discharge current (0 Vdc). VME requires two 1 Mega Ohm resistors

0.1 (2.5) in series to be connected between each of the ESD strip/s imple- 0.06 (1.5X) mented and the PCBs GND plane. CompactPCI deals with this issue in the hot swap specification. 0.02 (0.5) Detail A The second approach makes use of the “alignment pin,” as defined 160 in IEEE 1101.10. This multi-purpose alignment pin provides amongst other features, a 0.1 (2.54) Radius Fillet grounding feature function (not part of IEEE 1101.10, see Protective 10 MOhm Ground in 1101.11 which can fulfill the same function) when an FRONT PANEL Detail A 0.54 (13.7) I/O cable is connected to the PCB front panel installed in a live 10 MOhm 0.36 (9.0) system in case the operator is not connected to the an ESD strap. Strip 3Strip 2 Strip 1 The electrical discharge will pass directly into the chassis GND and is prevented to pass through the PCB. 0.49 (12.5) 1.57 (40.0) Tips: 11.77 (45.0) 3.94 (100.0) 0.23 (5.9) 4.72 (120.0) 6.30 (160.0) NOTES: • Make sure that the ESD clips are installed in both the top and 1) ESD TRIP LOCATIONS ARE TO BE PROVIDED bottom (front end) of the subrack system slot. AT BOTH PRIMARY AND SECONDARY SIDES OF PCB 2) ONLY THE BOTTOM OF HOT SWAP BOARDS • Make sure that the guide rail (slot) does not permit mis-insertion ARE SPECIFIED FOR ESD STRIP LOCATIONS (by-passing the ESD clip). 3) THIS DRAWING APPLIES TO THE BOTTOM OF 3U AND 6U BOARDS • Make sure that the solder side cover on the PCB component side 2 is of anti-static material.

Keying

Subrack Top Keying Hole Positions Board Top Keying Hole Positions VME64x, VIPA And IEEE 1101.10 Keying Concept AABBCCCompactPCI Keying In many VME, VIPA and CompactPCI applications which have Positions And I/O through the backplane’s user defined pins, specific plug-in Associated Keying PCBs are defined to specific slot positions in the system. Codes IEEE 1101.10 Plugging the wrong PCB into such a predefined slot could cause the system to function improperly, or in case of different power voltages it could have a disastrous result. Tips: • The IEEE 1101.10 removable keys are compatible between all suppliers.

DDEEFF Note: A multiple key insertion tool will be available third

Subrack Bottom Keying Hole Positions Board Bottom Keying Hole Positions quarter-1999.

1234N 1234N Subrack Keying Code Positions for Top Slots Board Keying Code Positions for Front Panel Top

1234N 1234N Subrack Keying Code Positions for Bottom Slots Board Keying Code Positions for Front Panel Bottom

63 Injector/Extractor Handles

Bus Pin Count Insertion/Extraction Force Lbs. F Architecture Connector Inclusive GND Shield Newtons (N) (approximate) (approximate) 3U VME IEC 60603-2 (DIN41612) 96 90 20 3U VME64 IEC 60603-2 (DIN41612) 96 90 20 3U VME64x IEC 61076-4-1xx (DIN41612) 160 150 34 6U VME IEC 60603-2 (DIN41612) 192 180 40 6U VME64 IEC 60603-2 (DIN41612) 192 180 40 6U VME64xP IEC 61076-4-1xx 320 2mm Metric 395 89 VIPA IEC 61076-4-101 133 9U VME64xP IEC 61076-4-1xx 2mm Metric 585 780 175 VIPA IEC 61076-4-101 3U CompactPCI Metric 2mm 308 215 48 IEC 61076-4-101 6U CompactPCI Metric 2mm 749 525 118 IEC 61076-4-101 9U CompactPCI* Metric 2mm 1190 835 188 IEC 61076-4-101

VME64x And CompactPCI Injector/ Microswitch Extractor Handles Keying Chambers Extraction position Alignment Earth Pin Self-Locking • Self-locking Front Panel ESD • Keying (4000+ combinations) PCB ESD • Alignment pin • Front panel ESD • Printed board ESD • Optional embedded microswitch • Optional retention screw • Suitable for EMC and Non-EMC front panels

6 Tips:

Optional Retention Screw • The “alignment pins” align the PCB vertically for improved connector engagement (advanced pre-charge pin sequencing). • The ejection function of the handle should not take place in the area where the horizontal EMC gaskets may be applied in either the front or rear of subrack.This will prevent possible damage to the horizontal system mounted EMC gaskets. • The injector/extractor must be designed to comply with the minimum connector injection/extraction cycles (VME 400 cycles; CompactPCI 200 cycles). • Look at the anti-shock and vibration results of the self-locking feature. • Choose an injector/extractor handle design which can be ganged, to allow for double (8 HP), triple (12 HP) and quadruple (16 HP) wide PCB front panel designs or tying of 4 HP wide PCB front panels. *Note: The CPCI injector/extractor handles (IEEE 1101.10) are designed for 6U CPCI fully loaded PCBs. If 9U CPCI PCBs are • Choose an injector/extractor handle design which implemented these handles may not perform adequately. Please provides for a hot swap (microswitch) solution. inquire for suitable injector/extractor handles based on IEEE 1101.10 dealing with injection/extraction forces above 525N (118 lbs. F).

64 Alignment Pins

Alignment Pin For CompactPCI Features: • Lifts the PCB to ensure parallel connector mating prior to connector engagement • Provides for solid/protected keying • Provides for a front panel ESD contact • Ensures front panel alignment • Provides for a front panel earth/ground Requirements: There are two requirements of this standard for plug-in unit front panel earth/ground. They are as follows: a) Short term current/resistance (200 A at 100 mΩ for 5 ms); b) Continuous current/resistance (25 A at 100 mΩ continuous). Resistance: The maximum resistance between the front panel of the plug-in unit and earth/ground is 100 mΩ, and is divided into three parts. They are as follows: a) 40 mΩ maximum between the plug-in unit front panel (alignment/ protective earth/ground pin) and the subrack (alignment/earth/ ground pin receptacle) b) 40 mΩ maximum between the subrack (alignment earth/ground pin receptacle) and the subrack frame earth/ground c) 20 mΩ maximum between the subrack frame earth/ground and the earth/ground. (UL recognition pending)

Solder Side Covers

Tips: Connector CompactPCI Solder Side Covers Features: • Make sure that the material used for the Retention solder side cover is anti-static and non- clip • Protects the EMC gasket when inserting a conductive. module into the subrack. PCB • Make sure that the components placed on • Prevents accidental contact of conductive the PCB component side 2 are still components or solder leads with neighbor- adequately cooled. This may require ing modules. perforation of the solder side cover at a Solder • Prevents contact of conductive components side hot spot. cover or solder leads with the neighboring module • When using the CompactPCI 2mm IEC EMC gasket in a live insertion environment. 1076-4-101 connector, please observe the Retention additional solder side cover mounting clip holes which have to be added. Detail for these hole positions and sides are defined in the PICMG 2.0 specifications and the IEEE 1101.11 standard. Solder Side Covers, Anti-static - 0.3mm (Not UL Listed) Material Specification Material ACRISTAT M-809 (Anti-static) Solder Side Covers, Anti-Static -0.5mm UL Listed Material thickness 0.3mm UL94-V0 and Anti-Static meets or exceeds MIL-B-81705-C and Tensile strength, psi 3850 EIA-541UL Yellow Cards QMFZ8; E171348A and E171348B Stress, max 27.6% • Surface resistivity of <1x1012/Ω/ Specific gravity 1.11 g/cm 3 • Static decay time of <2 sec. at 12% relative humidity • Non-contaminating, non-toxic, reusable, recyclable Surface resistivity, ohms/sq 1 x 10” • 0.5mm (0.019”) thick Volume resistivity, ohms/cm 1 x 10” • Designed for PCB “Clam Shell” protection EDT in sec., 15% humidity 0.03 • Perforated 2.0mm diameter at approx. 5mm interval Burning velocity for material thickness 0.3 to 0.6mm • Maximum use temperature +58°C (+162°F) According to ASTM D-635 <38.1mm/min • Non-washable Igniting point >407°C Flash point >393°C

65 CompactPCI With Transition Or I/O Modules

84 HP 2.54 2.54 4.07

Transition Modules P5/J5 Conductive surface EMC gasket Component side 1 Module PB P4/J4 91.74 ±0.4 Rear free connector Test dimension I/O Rear fixed modules (TM board) connector P3/J3 Backplane

+0 Fixed 80.00 - 0.3 connector P2/J2 171.74 ±0.4 Transition Free connector (Test dimension) Module Subrack side plate P1/J1 PB

EMC gasket Conductive surface

175.6 ±0.5 ≥ 92.14 Modules 38.0 Pitch lines 278.08 38.0 19" mounting angle 354.08 Front panel of PiU

Top view Backplane EMC See IEEE 1101.10 Backplane

Triple height boards 9U subrack Module Module Transition Module 366.7

Double height boards 6U subrack 233.35

Single height boards 3U subrack 100

60 80 (100) 120 140 (160) (400) (340) (280) (220) (160) (100) Board depth Board depth height Board IEEE 1101.1 IEEE 1101.11

Champfer top/bottom Tips: • Choose a subrack system which you may want to upgrade from Non-EMC to EMC in the case of unforeseen EMC problems. Note: When designing the 2mm connector to the PCB, please observe • Choose a subrack system which provides for that the pin numbering of the connector is not identical with the pinout max possible airflow over the PCBs. numbers of CPCI. Rear I/O modules will have the pin numbering upside • Make sure that your PCB sizes comply with the down. IEEE 1101.10 standard and includes a champfer on the connector end of the PCB.

66 MATING CONNECTOR: in two-piece connectors, the two halves that go together. MIDPLANE: see backplane. Terminology MOTHERBOARD: either a large printed circuit Abbreviations board or a back panel that has slots for other A Ampere TUV Techmischer Uberwachungs printed circuit boards, i.e. personal computer. AC Alternating Current Verein OUTPUT: the current, voltage, power or signal ANSI American National U Unit of 1.75” = 44.45mm which a circuit or device delivers. Terminals where a Standards Institute UL Underwriters Laboratories device delivers its information. APK Amp Peak UPS Uninterruptible Power Supply ATE Automatic Test Equipment USNC United States National Committee PACKAGING: the physical structures that hold an AWG American Wire Gauge V Volt electronic system or circuit together. Printed circuit CAMAC & NIM Nuclear Physics VDE Verein Deutscher Engineure boards, subracks, connectors and enclosures are Packaging Standards VITA VME International Trade all packaging devices. CFM Cubic Feet Per Minute Association PIN: a male contact. CPCI CompactPCI, max 8slots (USA) VIPA VME International Physics CSA Canadian Standards Association, see VME64xP PIN-OUT: a term used to describe the actual Association VME64xP See VIPA (VME64x for Physics) connections for each pin of a connector on a dB Decibels VXIbus VMEbus Based printed wiring. dBA dB (A curve) Microprocessor PLATED-THRU HOLES: a way of interconnecting DC Direct Current Architecture Expanded for layers of a two-sided or multilayer board by drilling DIN Deutsche Industrie Norm Instrumentation ATE holes through the board and then plating the hole. EIA Electronics Industry VSO VITA Standards Organization Association (USA) W Watt PLENUM: an enclosed chamber through which air EMC Electromagnetic WW Wire Wrap is forced for distribution Compatibility PLUG (P): Male connector EMI Electromagnetic Interference EMR Electromagnetic Radiation Industry Terminology PLUG-IN UNIT: PCB assembly, circuit pack EP Electronics Packaging module. ESD Electrostatic Discharge ARCHITECTURE: the physical layout of a circuit and system. PRESSFIT: an interference connection used in the ETL Enhanced Transceiver Logic assembly process to preclude the need for solder ETSI European Telecom BACKPLANE: a panel with connectors that to make an electrical connection. Standards Institute interconnects two or more PC boards; a wiring FCC Federal Communications board usually constructed as a printed circuit, used PRINTED CIRCUIT BOARD: a thin, rectangular Commission in micro and mini computers to provide the required piece of plastic used to hold electronic circuits and FH Full High, as in drives connections between logic, memory and I/O components. The components are mounted to the Ft Feet modules. boards using solder and are interconnected using a GHz Gigahertz flat conductor laminated to the board - rather than Hard Metric Metric derived dimensions BUS: (1) collecting several circuits to a common round wire. HH Half High, as in drives point; (2) in circuit board lay-out, the layout used to HP Horizontal Pitch of bus circuits. PRINTED WIRING BOARD: same as printed circuit board. 0.2” = 5.08mm CARD: another name for a printed circuit board. H/W Height/Width RFI/EMI: radio frequency interference/electromag- Hz Hertz CARD CAGE: a metal frame that holds printed netic interference - unwanted signals that interfere I/O Input/Output circuit boards and a backplane. Also called a with an electronic device. Also known as noise or IDC Insulation Displacement subrack. interference. Connection COMPONENT SIDE: the side of a printed wire IEC International Electrotechnical RAIL OR SLOT GUIDE: a bracket, usually plastic, board or backplane into which the connectors, used to guide a printed circuit board or panel into a Committee resistors, capacitors etc. are inserted. IEEE Institute of Electrical and subrack for alignment and mating the piece. Electronics Engineers CONNECTOR: an electromechanical device used SOCKET: a female contact, also called Jack. iPCI Industrie PCI, max 5 slot to complete a circuit. The types used in electronic (Germany) packaging include edge card connectors, DIN SHIELDING, SHIELDING SYSTEMS: electronic ISO International Standards connectors, plastic leadless chip carriers, pin grid enclosures or components that are protected from Organization arrays, terminals, points and sockets. unwanted signals, both internally and externally generated (See also RFI/EMI). J Jack CURRENT: the net transfer of electric charge per Lbf Pounds force SHROUD: a plastic device mounted around LED Light Emitting Diode unit time along a conductor. An amount equal to the Voltage/Resistance and measured in Amperes. terminals on a board to make a connector; a plastic Lfm Linear feet per minute component designed to fit over the tails of a wire m Meter EXPANSION SLOT: a non-committed connector on wrap connector to allow a female connector to be Mb/s Megabits per second a motherboard or backplane that can be used to mated with the wire wrap connector. MHz Megahertz expand the systems. mm Millimeter SLOT: a connector mounted on a motherboard or MPS Microprocessor Packaging EXTRUSION: a process in which a hot or cold backplane (See also guide rail). semisoft solid material is forced through the orifice System SMD, SURFACE MOUNT DEVICE: an electronic MBLT Multiplexed Block Transfer of a die to produce a continuously formed piece in P Plug the shape of the desired product. component using surface mount technology (see surface mount). PB Printed Board FAN TRAYS: a frame holding cooling fans, PBA Printed Board Assembly designed for mounting in subracks. SUBRACK: a rack that holds electronic devices, PCB Printed Circuit Board that in turn slides into a larger metal enclosure to PCI Peripheral Component GND (ALSO CALLED EARTH): an abbreviation for make up an electronic system (see also card cage); Interconnect ground. The potential referred to as zero volts. An any rack assembly without a backplane. PCIS Personal Computer electrical connection between any circuit and the Integrated System reference potential. SYSTEMS DEVELOPMENT: processes and products for configuring electronic systems. PSU Power Supply Unit GROUND PLANE: a conductive area on a PCB PWB Printed Wiring Board used as a common grounding point. SMT, SURFACE MOUNT TECHNOLOGY: see PC Personal Computer surface mount. PMC PCI on a Mezzanine: Card HP: abbreviation for horizontal pitch, which is PXI PCI extensions for standard distance of .200î (e.g. 4HP = .800î). SURFACE MOUNT: a technique for mounting electronic components on printed circuit boards instrumentation I/O: abbreviation for input/output. QC Quality Control without the use of through pin holes. RF Radio Frequency JACK (J): see socket. TERMINAL: a connector used to terminal one or RFI Radio Frequency Interface LAYER: a plane in a printed wiring board which more wires. Ripac Rittal Packaging has a cooper covering in some specified pattern TOLERANCE: the permissable variations in the Soft Metric Inches converted in mm (e.g. plane, traces, pads, etc.). SLLI System Level Live Insertion dimensions of manufactured parts. SMD Surface Mounted Devices MATING: connecting the two halves of a connector VOLTAGE/ GROUND PLANE: a thick layer of TIA Telecommunications Industry together. copper dedicated to either Vcc or GND. Association 67 a

A Front panel adapters 23 S AC/DC cooling 31-32 Front panels, EMC 21-22 Solder side covers 20, 65 Airflow management blockers 13 Front panels, Non-EMC 21-22 Subrack system divider 14 Alignment pins 65 z G System accessories AA-MM 10, 13-14 B Guide rails 13, 62 System accessories NN-SS 12-14 Backplane bridges 52 System model AA 7 Backplanes 37-52 H System model BB 7 Backplanes, 3U, 32-bit/64-bit 38-42 Handle labeling 19 System model CC 7 Backplanes, 6U, 32-bit/64-bit 42-46 Handles, Telecom Type VII 19 System model DD 7 Backplanes, 7U H.110 47 Handles, Type IV 19 Backplanes, power supply 49-51 System model EE 8 I Board adapters 23 System model FF 8 Injector/extractor handles 64 C System model GG 8 CPCI system models 7-16 K System model HH 8 CPCI systems, modified 16 Keying 14, 20, 63 System model JJ 9 D M System model KK 9 Drive chassis, horizontal 24-25 Multiple handle tying 19 System model LL 9 Drive chassis, vertical 26 System model MM 9 P E System model NN 11 Power supplies, ATX 61 Embedded microswitch assembly 20 System model PP 11 Power supplies, open frame 59-60 EMC compatability 62 System model RR 11 Power supplies, pluggable 55-58 ESD clips 14 System model SS 11 ESD protection 63 R F Retention screw 20 T Fastening assembly parts 14 RiCool blower assembly 29-30 Terminology 67 Filler panels 13 RiTherm 33-34 Transition I/O modules 66 68 Part Number Page Number Part Number Page Number Part Number Page Number

3344012 30 3684477 26 3685967 20 3344024 30 3684478 26 3686037 20 3344048 30 3684479 26 3686063 13 3654300 14, 23 3684480 26 3686134 19 3654320 14, 23 3684481 26 3686135 19 3654360 14, 23 3684669 13, 55, 58 3686321 32 3658160 13, 14, 23 3684670 13 3686322 32 3658210 23 3684891 13 3686323 32 3684019 14, 23 3684895 13 3686324 32 3684084 13 3684897 13 3686325 32 3684106 13 3684913 13 3686326 32 3684107 13 3684917 13 3686327 32 3684108 13 3684919 13 3686328 32 3684109 13 3685097 20 3686329 32 3684115 24 3685178 13 3686536 20 3684116 24 3685182 13 3686537 20 3684117 24 3685184 13 3686541 20 3684118 25 3685186 13 3686546 38 3684119 25 3685190 13 3686547 38 3684120 25 3685192 13 3686548 39 3684121 25 3685197 32 3686549 42 3684122 25 3685198 22 3686550 43 3684123 25 3685290 23 3686551 43 3684124 25 3685328 61 3686552 44 3684125 25 3685329 61 3686553 49 3684204 14 3685331 61 3686554 38, 47 3684205 14 3685332 61 3686570 49, 50, 51 3684238 21 3685373 13 3686571 38-47, 52 3684240 21 3685453 13 3686572 20 3684243 21 3685500 21 3686573 20 3684325 14, 20 3685504 21 3686574 20 3684326 14, 20 3685506 21 3686575 40 3684413 21 3685508 21 3686576 40 3684417 21 3685512 21 3686578 41 3684419 21 3685514 21 3686579 45 3684420 21 3685516 21 3686580 45 3684424 21 3685520 21 3686581 46 3684426 21 3685522 21 3686677 55 3684427 21 3685524 21 3686679 51 3684431 21 3685528 21 3686684 50 3684433 21 3685530 21 3686685 55 3684468 26 3685532 21 3686686 55 3684469 26 3685536 21 3686687 55 3684470 26 3685538 21 3686879 30 3684471 26 3685540 21 3686880 30 3684472 26 3685544 21 3686881 30 3684473 26 3685546 21 3686886 34 3684474 26 3685619 22 3686887 30 3684475 26 3685790 13 3686888 30 3684476 26 3685966 20 3686889 30

69 Part Number Page Number Part Number Page Number

3686900 19 3687851 21 3686901 19 3687852 21 3686902 19 3687853 21 3686903 19 3687854 21 3686935 19 3687855 21 3686975 21 3687856 21 3686977 21 3687857 21 3686979 21 3687859 38 3686989 13 3687860 39 3687050 13, 14, 23 3687861 39 3687051 13, 14, 23 3687862 40 3687863 41 3687098 23 3687864 41 3687301 11 3687866 42 3687302 11 3687867 43 3687471 23 3687868 44 3687498 11, 34 3687869 44 3687793 61 3687870 45 3687801 7 3687871 46 3687802 7 3687872 47 3687803 7 3687873 47 3687804 7 3687874 47 3687805 8 3687875 47 3687806 8 3687876 47 3687807 8 3687877 47 3687808 8 3687878 47 3687809 9 3687879 47 3687810 9 3687880 47 3687811 9 3687881 51 3687812 9 3687882 57 3687826 34 3687883 57 3687827 11 3687884 58 3687829 13 3687885 58 3687830 13 3687886 59 3687887 59 3687832 13, 57 3687888 60 3687833 14 3687889 60 3687834 14 3687924 13 3687835 14 3687932 20 3687838 21 3687933 20 3687839 21 3687934 20 3687840 21 3687936 13 3687841 21 3687937 13 3687842 21 3687951 13 3687843 21 3687955 20 3687844 21 3687956 20 3687845 21 3687973 51 3687846 21 3687987 34 3687847 21 3687988 34 3687848 21 9810336 50 3687849 21 9810337 49, 50, 51 3687850 21 9810338 49, 50, 51

70 In USA: Rittal Corporation • One Rittal Place • Springfield, OH 45504 • Phone: (937) 399-0500 Fax: (937) 390-5599 • Toll Free: 1-800-477-4000 • Email: [email protected] • Internet: www.rittal-corp.com In Canada: Rittal Systems Ltd. • 7320 Pacific Circle • Mississauga, Ontario L5T 1V1 • Toll Free: 1-800-399-0748 In México: Rittal, S.A. de C.V. • Prolongación 5 de Mayo No. 29 • Parque Industrial Naucalpan • 53489 Naucalpan, México Phone: (525) 300-2570 • Fax: (525) 300-0495 ®

HCG 5/99 HG 15M #9069.999