OPTIMIZE YOUR ENERGY MANAGEMENT with Smart, Precise Electrical Metering

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OPTIMIZE YOUR ENERGY MANAGEMENT With Smart, Precise Electrical Metering

Submeter Technical Resource Guide 2 Submeter Technical Catalog Sophisticated Energy Profiling

Whether you’re a facility manager for a business, a property manager for office or residential properties, or a contractor who services such properties, Honeywell electrical metering provides precise usage data and analytical insights well beyond what the master utility meter provides.

From hardware and software to service and intuitive system that shows exactly where, support, Honeywell leads the industry in when, and how the facility is using energy. solutions for sophisticated energy profiling. Honeywell E-Mon electric submeters are Our E-Mon™ metering solutions are designed installed on the facility side of the master for fast installation, easy use, precise utility meter to provide a range of monitoring monitoring, and scalable versatility in a wide capabilities such as: variety of applications and properties. • Electrical-usage analysis and identification In conjunction with automatic meter reading of peak demand levels for load comparisons. (AMR) software, Honeywell electrical metering • Time-of-use metering of electricity, gas, provides accurate and timely snapshots of a water, steam, BTUs, and other energy facility’s energy use, with reporting capabilities sources. that readily scale from a single circuit or device • Fair and equitable cost allocation for tenant to an entire building, campus, and beyond. billing. This submeter-based AMR approach provides • Measurement, verification, and the essential platform to efficiently optimize benchmarking of kW / kWh for energy and energy management. All utility service data for green-building initiatives. a facility – including electric, water, gas, steam, • Net metering. and other utilities – is integrated into a single

Contact Information

Order Products Order Literature Technical Assistance Sales and Product ACSElectricalorders Literature.Honeywell.com Center Information [email protected] Phone: 1-800-334-3666 Contact your local Honeywell sales representative [email protected]

3 Submetering: The Smarter Way to Monitor

Commercial Property – Office and Retail No matter which side of the electric bill you’re on, Honeywell energy-metering solutions benefit both building owners and their customers in commercial office, retail, and mixed-use facilities. At the enterprise level, Honeywell E-Mon submeters help facility managers track everything from common-area usage and HVAC-system performance to monitoring after- hours energy usage so that you can recover and allocate costs back to the right tenant. From the tenant’s perspective, our E-Mon submeters eliminate the frustrations of arbitrary ratio-based measures, such as square-footage billing that favors high- volume users over low-use tenants. Tenants also financially benefit from their own energy-conservation initiatives. And E-Mon submeters provide precise usage data, enabling managers to satisfy tenant-fairness concerns with billing statements that detail their exact usage.

Honeywell metering solutions are designed to help your business: • Allocate energy costs to specific lease spaces, circuits, and buildings. • Profile entire facilities for demand management, load shedding, and energy-initiative compliance. • Aggregate energy demand / use for bulk energy contracts. • Implement demand response / control to avoid costly demand charges.

For Building Owners And Honeywell metering surpasses what utility companies can offer, empowering building owners with continuous management and analysis of energy usage within your buildings. This level of transparency, along with customized summaries and billing statements that are read remotely, will enable you to streamline your business processes and implement more effective energy-efficiency strategies.

4 Submeter Technical Resource Guide Multifamily Property As energy rates continue to rise, owners of multifamily properties increasingly need ways to allocate utility costs back to the tenants in order to recover revenue and promote resource conservation. Arbitrary cost allocations based on square footage or other ratio billing do little to encourage energy conservation. Conversely, tenants in high-rises, condos, co-ops and mixed-use buildings have been shown to use up to 25% less energy when submeters hold them accountable for the power they use. Given these factors, managers and owners of high-rise properties and multifamily dwellings increasingly rely on Honeywell submetering to help them track and unbundle utility costs from leases and association fees. Such capabilities enhance property value in many jurisdictions, and are highly effective for both new and retrofit applications. Honeywell E-Mon metering solutions offer a versatile range of capabilities from “walk up and read” to full Automatic Meter Reading (AMR) solutions that can incorporate all utilities including gas and water into one easy-to-use system. The full Honeywell portfolio of E-Mon metering hardware and software is ideally suited for multifamily residential application, providing an easy, cost-effective solution for tenant metering and common area allocation.

For Contractors Likewise, for solution-focused contractors who wish to offer their customers the value of greater energy savings, Honeywell E-Mon meters are easy to install and easy to use. E-Mon devices monitor energy at multiple points throughout your customer’s building and then divide utility bills based on each tenant’s actual usage, eliminating expensive cost for property managers.

Additional Submetering Applications Industrial Complexes Government Facilities Educational Campuses Shopping Centers Sports Venues and Malls and Stadiums

5 Emon Class 1000 and 2000 Meters

Honeywell Emon Class 1000 and 2000 kWh / Demand meters provide the basic building blocks of an affordable, effective, and scalable energy-management system. These easy-to-install meters can monitor systems at virtually any scale, from a single-phase circuit to a specific load panel or an entire building.

Energy usage data can be viewed via the LCD on the meter for easy, walk-up-and- read monitoring of energy consumption. Remote metering, via Honeywell Energy Automatic Meter Reading (AMR) systems or the Web-Mon Web Enabled Monitoring System, provides easy options for tenant billing, energy management, and cost- allocation based on actual usage, not estimation or ratio-based calculations.

Class 1000 Features Additional Features: Meter can be used on the following configurations: Class 1000 and 2000 Meters 1-Phase, 2-Wire Direct-read two-line alphanumeric LCD without multiplier, 2-Phase, 3-Wire displays cumulative kWh and real-time kW load.

Class 2000 Features Available in MMU (Multiple Meter Unit) enclosures containing up to 24 meters in one compact enclosure. Demand option displays kW/Demand and kW Peak date and time (15-minute interval standard, 30- or 60-minute Patented 0-2 volt output split-core current sensors intervals available.) promote enhanced safety and accurate remote mounting of current sensors up to 2,000 feet from meter without power Onboard installation diagnostics and verification system. interruption. (Optional solid-core sensors available in 100 Meter configurations: and 200 amp.) 3-Phase, 4-Wire Parallel up to three sets of current sensors for cumulative 3-Phase, 3-Wire reading. Common Configurations for Class 1000 and Current-sensor installation diagnostics. 2000 Meters Fixed-value pulse output. 12V, 1-Phase, 2-Wire (supplied with (1) split-core current sensor) Non-volatile memory. E10-212025-RKIT Maintains reading in the event of power failure. E10-2120100RKIT Industrial-grade JIC steel enclosure (standard) with E10-2120200RKIT padlocking hasp and mounting flanges for indoor installation. Knockouts: 1–1/16 in. (3/4 in. cond.) bottom, 120/208-240V , 1- or 2-phase, 3W (supplied with (1) split- 7/8 in. (1/2 in. cond.) top. core current sensor) Optional NEMA 4X polycarbonate enclosure with E10-320825-RKIT padlocking hasp and mounting flanges for indoor/outdoor E10-320850-RKIT installation (standalone) with one 1–1/16 in. KO on bottom E10-3208100RKIT of enclosure. E10-3208200RKIT Approvals 277 V, 1-Phase, 2W (supplied with (1) split-core current UL/CUL Listed. sensor) Revenue Grade Accuracy. Meets or exceeds ANSI C12.20 E10-227725-RKIT national accuracy standards. E10-227750-RKIT E10-2277100RKIT California CTEP approved for use with solid-core current E10-2277200RKIT sensors. Listed by the California Energy Commission.

6 Submeter Technical Resource Guide Model Numbers Description/ 1000 2000 Class Meter Class E10- E20- Voltage (L-N/L-L) 120/NA 2120 120/208-240 3208 277/NA 2277 120/208-240 208 277/480 480 347/600 600 Current (Amps) 25 Amps 25- 50 Amps 50- 100 Amps 100 100- 200 Amps 200 200- 400 Amps 400- 800 Amps 800- 1600 Amps 1600 3200 Amps 3200 Enclosure Type JIC Steel Enclosure J J NEMA 4X Enclosure R R MMU Style Meter M M Options * Demand -D- Green Class Meter -G- Current Sensors Split-Core Current KIT KIT Sensors Solid-Core Current SCS SCS Sensors No Sensors * No Current Sensor -NS Included *Optional items, do not include in the full part number if the option is not needed. Examples: E10-212025-JKIT = Class 1000, Single Phase 120V, 25A, JIC Steel Enclosure, and One Split-Core Current Sensor E20-208100-RKIT = Class 2000, Three Phase 120/208-240V, 100A, NEMA 4X Enclosure, and Three Split-Core Current Sensors

120/208-240V, 3-Phase E20-208100-RKIT E20-208200-RKIT E20-208400-RKIT E20-208800-RKIT E20-2081600RKIT E20-2083200RKIT

277/480V, 3-Phase E20-480100-RKIT E20-480200-RKIT E20-480400-RKIT E20-480800-RKIT E20-4801600RKIT E20-4803200RKIT

7 Emon Smart Meters

Honeywell Emon Smart Meters are optimal for energy, power quality, and building- automation-system (BAS) integration. They combine an extensive feature set with a wide range of metering functions – from basic to dual protocol, load control, net metering, expanded memory and storage, and more.

Honeywell Smart Meters are both versatile and highly configurable, enabling you to choose just the models and features you need – no need to pay for unwanted bells and whistles.

Honeywell Smart Meters offer communication capabilities for integration with AMR (Automatic Meter Reading) systems, building-automation systems, billing packages, or measurement-and-verification (M&V) reporting programs via industry-standard communication protocols.

Class 3400 and 5000 meters also offer dual-protocol communication for talking to two systems at the same time. This enhances the value of your investment by enabling you to obtain granular meter data from a single device, acting as both a billing meter and an independent building-automation-system meter.

3200 Features 3400 Features 5000 Features Available in MMU (multiple-meter Certified by independent test lab to Certified by independent test lab to unit) with enclosures containing up to ANSI C12.20 accuracy standards. (+/- ANSI C12.20 accuracy standards. (+/- 24 meters in one compact enclosure. 0.5% from 1% to 100% of rated load.) 0.5% from 1% to 100% of rated load.) RS-485 protocol options include EZ7, Built-in communications include RS- Built-in communications include RS- Modbus RTU, or BACnet MS/TP. 485 and Ethernet, pulse output, and 485 and Ethernet, pulse output, and Revenue-grade accuracy. Meets optional telephone modem. optional telephone modem. or exceeds ANSI C12.20 national Optional – Expanded feature package Two pulse outputs and two external accuracy standards. includes load-control option for load inputs (water, gas, BTU, and more) CE Mark approved. control / shedding, two external meter (channels 5 and 6 are available from inputs (water, gas, BTU, and more) Honeywell Energy only). stored in channels 5 and 6 with two Phase-loss alarm (N.O. contact). pulse outputs (one kWh and kVARh). Optional – Phase-loss alarm (N.O. contact).

8 Submeter Technical Resource Guide Smart Meter Features: Model Numbers Advanced four-line display Description/ 3200 3400 5000 Onboard setup and installation diagnostics Class Meter Class E32- E34- E50- very verification system. Voltage (L-N/L-L) 120/208-240 208 0–2 volt output current sensors enable 277/480 480 enhanced safety and accurate remote 347/600 600 mounting of sensors up to 500 feet from meter Current (Amps) 100 Amps 100- without power interruption. 200 Amps 200- Records kWh and kVARh delivered, kWh and 400 Amps 400- kVARh received in first four channels. 800 Amps 800- 15-minute interval data stored for up to 72 1600 Amps 1600 days or 5-minute intervals for up to 24 days. 3200 Amps 3200 (Interval data not available via BACnet or Enclosure Type JIC Steel Enclosure J LonWorks.) NEMA 4X Enclosure R RS-485 cabling can either be daisy chain or MMU Style Meter M star configuration, 3-cond., 18-22 AWG, up to Communication EZ-7 EZ7 4,000 feet total per channel. Protocol BACnet MS/TP BAC Meter is designed for use on both “3-phase, Modbus RTU RTU 3-wire (delta)” circuits and “3-phase, 4-wire (wye)” circuits. (Includes three split-core EZ-7, EZ-7 Ethernet 01 01 current sensors.) Modbus RTU, EZ-7 Ethernet 02 02 Optional single-phase, 3-wire configuration BACnet MS/TP, EZ-7 Ethernet 03 03 available. (Includes two split-core current EZ-7, Modbus TCP/IP 04 04 sensors.) EZ-7, BACnet IP 05 05 Meets or exceeds MID accuracy standards. Modbus RTU, Modbus TCP/IP 06 06 LonWorks TP/FT-10, EZ-7 Ethernet 07 07 Enclosure Options LonWorks TP/FT-10, Modbus 08 08 TCP/ IP Outdoor NEMA 4X polycarbonate enclosure EZ-7, EZ-7 Ethernet with Modem 09 09 Industrial grade JIC steel enclosure EZ-7, Modbus TCP/IP with Modem 10 10 EZ-7, BACnet IP with Modem 11 11 Approvals Options * Single Phase or Two Phase (Two -SP UL / CUL listed Element) BACnet protocol is BTL verified Expanded Feature Pack -X- Expanded Feature Pack, Single XSP LonWorks protocol is LonMark certified Phase or Two Phase (Two Element) Green Class Net Meter -N- Green Class Net Meter, Single NSP Phase or Two Phase (Two Element) Current Sensors Split-Core Current Sensors KIT Solid-Core Current Sensors SCS No Sensors * No Current Sensor Included -NS *Optional items, do not include in the full part number if the option is not needed. Examples: E32-480200-JRTUKIT = Class 3200, 277/480V, 200A, JIC Steel Enclosure, Modbus RTU, and Three Split-Core Current Sensors E34-480400-R01-X-KIT = Class 3400, 277/480V, 400A, NEMA 4X Enclosure, EZ-7 (RS-485) & EZ-7 Ethernet, Expanded Feature Pack, and Three Split-Core Current Sensors E50-480800-J01-N-KIT = Class 5000, Green Class Net Meter, 277/480V, 800A, JIC Steel Enclosure, EZ-7 (RS-485), EZ-7 Ethernet, and Three Split-Core Current Sensors 9 Din-Mon

Honeywell Din-Mon meters come housed in standard DIN rail-mount enclosures. The single-protocol meter (Din-Mon D2) and dual-protocol (Din-Mon D5) meters facilitate integration of advanced energy monitoring into building-automation systems, switchgear, control panels, server racks, renewable-energy systems, and other space-constrained applications.

10 Submeter Technical Catalog Features Model Numbers Dual-protocol functionality enables simultaneous Din- Din- communication via RS-485 / Ethernet or RS-485 / Description/ Mon D2 Mon D5 LonWorks with selectable BAS protocols. Supports Class Meter Class E-D2- E-D5- independent communication to Honeywell Automatic Voltage (L-N/L-L) 120/208-240 208 Meter Reading (AMR) system and building-automation 277/480 480 system (BAS or other front-end monitoring systems). 347/600 600 Sensors Current (Amps) 100 Amps 100- 0.333-volt output split-core current sensors (standard) 200 Amps 200- enable enhanced safety and accurate remote mounting of sensors up to 500 feet from meter. (Optional solid-core 400 Amps 400- sensors and 100 mA output current sensors are available.) 800 Amps 800- Meters can be ordered without current sensors and used Enclosure Type Standard Enclosure S with commercially available 0.333V and 100 mA output Communication EZ-7 EZ7 Protocol current sensors. Order without current sensors when using BACnet MS/TP BAC third-party current sensors. Modbus RTU RTU Outputs EZ-7, EZ-7 Ethernet 01 Two customer-configurable pulse outputs: Modbus RTU, EZ-7 02 Watt-hour and VAR-hour pulse outputs. Ethernet Watt-hour and phase loss (N.O. contact). BACnet MS/TP, EZ-7 03 Onboard installation diagnostics and verification system. Ethernet Communications EZ-7, Modbus TCP/IP 04 Built-in RS-485 communication capability supports the EZ-7, BACnet IP 05 following connection configurations (or combinations, not Modbus RTU, 06 to exceed 52 devices per channel): Modbus TCP/IP • Up to 52 Din-Mon D2, Din-Mon D5, Class 3200, 3400 EZ-7, LonWorks TP/ 12 and 5000 meters and/or IDR interval recorders FT-10 • Cabling using 3-conductor, 18-22 AWG, up to 4,000 feet. Current Sensor Split-Core Current SPL Records kWh and kVARh delivered, kWh and kVARh Type Sensor received in first four channels. Data stored in 15-minute Solid-Core Current SCS SCS intervals for up to 72 days or 5-minute intervals for up to 24 Sensor days. Maintains data in a first-in, first-out format. (Interval Configuration- Single Phase 1- 1- Phases data not available via BACnet or LonWorks.) Two Phases 2- 2- Compatibility Three Phases 3- 3- Compatible with Honeywell Energy software via EZ7 Current Sensor 0.333V Output V3 V3 protocol for automatic meter reading, energy billing, and Output 100mA Output C1 C1 profiling. Current Sensor 1 Current Sensor KIT1 KIT1 Designed for use on both “3-phase, 3-wire (delta)” circuits Quantity Included and “3-phase, 4-wire (wye)” circuits. Optional 1- and 2 Current Sensor KIT2 KIT2 2-element configurations available. Included Non-metallic enclosure with DIN-rail mounting and 3 Current Sensor KIT3 KIT3 surface-mounting flexibility. Included No Current Sensor -NS -NS Approvals: Included UL/CUL Listed. Examples: Revenue Grade Accuracy. Meets or exceeds ANSI C12.20 E-D2-208200-SRTUSPL3-V3KIT3 = Class D2, 120/208-240V, national accuracy standards. 200A, Standard Enclosure, Modbus RTU, Three Phase, Three 0.333V Output Split-Core Current Sensors Meter meets or exceeds MID accuracy standards. E-D5-208200-S01SPL3-V3KIT3 = Class D5, 208V, 200A, BACnet protocols are BTL Certified Standard Enclosure, EZ-7 (RS-485) & EZ-7 Ethernet, Three Phase, LonWorks protocol is LonMark certified Three 0.333V Output Split-Core Current Sensors

Protocols EZ7, BACnet MS/TP, Modbus RTU, BACnet IP, Modbus TCP/IP, LonWorks TP/FT-10 11 12 Submeter Technical Catalog Interval Data Recorder (IDR)

In contrast to communicating submeters, which continuously read energy usage as it occurs, interval-data recorders (IDRs) collect and store energy data from meters in time-stamped intervals for later downloads.

An IDR collects and stores meter information at specified time intervals, enabling profiling of metering data and more detailed comparative analysis or billing.

Features Model Numbers Collects kWh and kW demand information from meters in Description/ IDR field-selectable 5-, 15-, 30-, or 60-minute intervals. Class Meter Class EIDR- Data can be collected from up to eight or 16 separate Number of Pulse 8 Meters 8- Meter Inputs meters / channels of information. 16 Meters 16 Up to 72 days of 15-minute interval data is stored in the Enclosure Type JIC Steel Enclosure J onboard memory. MMU Style Meter M The IDR interval meter data can be accessed via a variety Communication EZ-7, EZ-7 Ethernet 01 Protocol of communication options, including Ethernet, Modbus, Modbus RTU, EZ-7 Ethernet 02 BACnet, Internet, telephone modem, and LonWorks TP/ BACnet MS/TP, EZ-7 Ethernet 03 F T-10. EZ-7, Modbus TCP/IP 04 Data can be used to interface with Honeywell Energy EZ-7, BACnet IP 05 Automatic Meter Reading and Billing software, building- Modbus RTU, Modbus TCP/IP 06 automation systems, or other energy software. EZ-7, EZ-7 Ethernet with Modem 09 EZ-7, Modbus TCP/IP with 10 Modem EZ-7, BACnet IP with Modem 11 Connections Screw Terminal ST RJ Connections RJ

Examples: EIDR-8-J01ST = IDR for 8 meters, Steel enclosure, EZ-7 (RS-485) & EZ-7 Ethernet with Screw Terminal Connections EIDR-16J02RJ = IDR for 16 meters, Steel enclosure, Modbus RTU & EZ-7 Ethernet with RJ Connections

13 Space-Saving Metering Options

Space-saving multiple-meter unit (MMU) enables easy, centralized reading. IDRs (interval data recorders) can be factory installed inside MMU enclosures along with the meters, enabling an easy interface to the Honeywell Energy software system. MMU cabinets enable easy, centralized reading of meters in apartment buildings, campuses, healthcare facilities, and industrial applications.

Multiple Meter Unit (MMU) Cabinets The MMU cabinets contain 8, 16, or 24 meters mounted in • Available in configurations containing up to 8, 16 or 24 a single case and prewired before shipping. Cabinets are meters available for Class 1000, 2000, and 3200 meters. IDRs • May contain meters of different voltage configurations can be added for communications including RS-485 and • Allow for easy and centralized reading Ethernet protocols. For added flexibility, MMU cabinets may contain meters of different voltage configurations (i.e. 208V and 480V meters inside a single MMU enclosure).

Model Numbers

Part # Description Configuration Dimensions

MMU-8 MMU-8 Cabinet/Enclosure for 8 meters 2 meters across/4 meters down 12"w x 24"h x 7"d

MMU-16 MMU-16 Cabinet/Enclosure for 16 meters 4 meters across/4 meters down 20"w x 24"h x 7"d

MMU-24 MMU-24 Cabinet/Enclosure for 24 meters 5 meters across/5 meters down 30"w x 24"h x 7"d

MMU-BLANK Multiple Meter Unit - Blank Space

MMU Dimensions C Dimensions (Inches)

MMU A B C

MMU-8 24 12 1-1/4

MMU-16 24 20 3

A MMU-24 30 24 3

Meter Configuration Total Meter MMU A B Spaces

MMU-8 2 4 8

B MMU-16 4 4 16 FrontFront view View Side Viewview M36754 MMU-24 5 5 24

14 Submeter Technical Resource Guide

Parallel Current Sensor

Installation Diagram

Meter Terminal Block Line Voltage Current Sensors ØA ØB ØC ØA ØB ØC N W B W B W B

Current ØA ØB ØC Sensor Leads Black and white current sensor leads Phase ØC A B C ØB ØA

+ + + +

+ + + + Black and white current sensor leads Phase ØC A B C ØB ØA

+ + + +

+ + + ØA ØB ØC + + + + +

Black and white current sensor leads Phase ØC A B C

ØB

ØA

Note: Don’t forget to multiply + + + + by the number of sets of + + + + current sensors in parallel. + + + (Three sets are shown in + this illustration.) M36755

16 Submeter Technical Resource Guide Current Sensor Assembly

Step 1 Using a flathead screwdriver, press the tab on the nylon clamp to open the current sensor assembly.

Step 2 Reassemble current sensor assembly around the conductor(s) to be monitored. Be sure that the current sensor halves marked "Load" are both facing the load side of the conductor being monitored. The colored arrow will be on the source (line) side of the conductor being monitored.

Step 3 When looking from the source side of the conductor(s) being monitored, you should see the arrow on the current sensor assembly.

17 Current Sensor Specifications

Current Sensor for Class 1000, 2000, 3200, 3400, 5000 meters Interior Exterior Dimension Dimension (Inches) (Inches) Material / Configuration Description H W H W D SUB-CS25-1 25 AMP 0-2V Split-Core - One Piece SUB-CS50-1 50 AMP 0-2V Split-Core - One Piece 0.875 1.5 3.125 3.75 SUB-CS100-1 100 AMP 0-2V Split-Core - One Piece SUB-CS200-1 200 AMP 0-2V Split-Core - One Piece SUB-CS400-1 400 AMP 0-2V Split-Core - One Piece 1.5 2.75 4.375 3.75 SUB-CS800-1 800 AMP 0-2V Split-Core - One Piece 3.25 4.5 4.75 5.375 SUB-CS1600-1 1600 AMP 0-2V Split-Core - One Piece SUB-CS3200-1 3200 AMP 0-2V Split-Core - One Piece 5.44 7.875 9.25 7.875 1.375 SUB-CS25 25 AMP 0-2V Split-Core - 3 Piece Set SUB-CS50 50 AMP 0-2V Split-Core - 3 Piece Set 0.875 1.5 3.125 3.75 SUB-CS100 100 AMP 0-2V Split-Core - 3 Piece Set SUB-CS200 200 AMP 0-2V Split-Core - 3 Piece Set SUB-CS400 400 AMP 0-2V Split-Core - 3 Piece Set 1.5 2.75 4.375 3.75 SUB-CS800 800 AMP 0-2V Split-Core - 3 Piece Set 3.25 4.5 4.75 5.375 SUB-CS1600 1600 AMP 0-2V Split-Core - 3 Piece Set SUB-CS3200 3200 AMP 0-2V Split-Core - 3 Piece Set 5.44 7.875 9.25 7.875 SUB-CSSC-100-1 100 AMP 0-2V Solid-Core - One Piece

SUB-CSSC-200-1 200 AMP 0-2V Solid-Core - One Piece 0.75 2 0.75 SUB-CSSC-100-3 100 AMP 0-2V Solid-Core - 3 Piece Set Diameter Diameter SUB-CSSC-200-3 200 AMP 0-2V Solid-Core - 3 Piece Set

Notes: The above split-core current sensors are supplied with Honeywell E-Mon Class 1000, 2000, 3200, 3400, 5000, Green, and Green Net meters. Current sensors can be installed up to 2,000 feet away from meter (or 500 feet for Class 3200, 3400, 5000, and Green Net.) Leads supplied are 3 feet in length and can be extended using #14-22 AWG wire (stranded / twisted not required.) See local electrical codes for proper sizing. When paralleling current sensors, the meter reading must be multiplied by the number of sets of sensors in parallel. Solid-core current sensors available in 100 and 200 amp.

18 Submeter Technical Resource Guide Din-Mon Current Sensor Specifications

Din-Mon Current Sensors must be used with Din-Mon D2 and D5 series meters. These current sensors cannot be used with any other Honeywell metering products.

Current Sensor for Din-Mon D2 & D5 Smart Meters. Interior Exterior Dimension Dimension (Inches) (Inches) Material / Configuration Description H W H W D SUB-CS100-100 100 AMP, 100MA, Split-Core - One Piece 0.75 0.75 2 2.1 0.6 SUB-CS100-333 100 AMP, 0.333V, Split-Core - One Piece SUB-CS200-100 200 AMP, 100MA, Split-Core - One Piece SUB-CS200-333 200 AMP, 0.333V, Split-Core - One Piece 1.25 1.25 3.35 3.25 1 SUB-CS400-100 400 AMP, 100MA, Split-Core - One Piece SUB-CS400-333 400 AMP, 0.333V, Split-Core - One Piece SUB-CS800-100 800 AMP, 100MA, Split-Core - One Piece 2 2 5 4.75 1.2 SUB-CS800-333 800 AMP, 0.333V, Split-Core - One Piece SUB-CSSC100-100 100 AMP, 100MA, Solid Core - One Piece

SUB-CSSC100-333 100 AMP, 0.333V, Solid Core - One Piece 0.75 2 0.8 SUB-CSSC200-100 200 AMP, 100MA, Solid Core - One Piece Diameter Diameter SUB-CSSC200-333 200 AMP, 0.333V, Solid Core - One Piece SUB-CS100-100KIT 100 AMP, 100MA, Split-Core - 3 Piece Set 0.75 0.75 2 2.1 0.6 SUB-CS100-333KIT 100 AMP, 0.333V, Split-Core - 3 Piece Set SUB-CS200-100KIT 200 AMP, 100MA, Split-Core - 3 Piece Set

SUB-CS200-333KIT 200 AMP, 0.333V, Split-Core - 3 Piece Set 1.25 1.25 3.35 3.25 1 SUB-CS400-100KIT 400 AMP, 100MA, Split-Core - 3 Piece Set SUB-CS400-333KIT 400 AMP, 0.333V, Split-Core - 3 Piece Set SUB-CS800-100KIT 800 AMP, 100MA, Split-Core - 3 Piece Set 2 2 5 4.75 1.2 SUB-CS800-333KIT 800 AMP, 0.333V, Split-Core - 3 Piece Set SUB-CSSC100-100KIT 100 AMP, 100MA, Solid Core - 3 Piece Set

SUB-CSSC100-333KIT 100 AMP, 0.333V, Solid Core - 3 Piece Set 0.75 2 0.8 SUB-CSSC200-100KIT 200 AMP, 100MA, Solid Core - 3 Piece Set Diameter Diameter SUB-CSSC200-333KIT 200 AMP, 0.333V, Solid Core - 3 Piece Set

19 Honeywell Energy Software

Tap into your savings potential: Unlike utility companies, Honeywell Energy software supplies landlords with customized summary reports and billing statements, helping property owners make smarter decisions faster – thanks to precise tracking of actual time-of-use and tenant allocation. The Honeywell Energy automatic meter-reading system enables users to accurately monitor interval energy data for a variety of applications, including tenant billing / allocation, departmental allocation, common-area management, demand / energy analysis, and equipment maintenance programs, as well as measurement and verification for LEED certification and other green-building initiatives.

Features Honeywell Energy will run on computers that meet the following specifications: • OS: Windows 2000, 2003, XP, 7 or 8 • RAM: 4 GB • Hard Disk: 100 GB • Ethernet: Static IP address with port 12005 Honeywell Energy software is available for both single- license and server-license applications. Graphic profiling provides analytical charts and graphs with demand profiling for 5-, 15-, 30-, or 60-minute sampling rates. Generate and print itemized electric bills (using coincidental peak-demand date and time). The software generates bills from user-specified time periods via profile data (your presence is not needed to generate meter readings). Reads up to eight time periods, four seasons, and multiple holidays for time-of-use (TOU) monitoring. Reads Honeywell meters, either on-site or off-site, via telephone modem, Ethernet, or via a directly connected computer. Reads all Honeywell meters via IDRs and Honeywell meters. Read smart meters directly (when ordered with EZ7 protocol). Can also read gas, water, BTU, and steam meters via IDR for billing purposes and graphical display of usage. Exports data to spreadsheets for analysis (*.csv files). Exports data to MV-90 system (*.hhf files). Optional modems are used with Honeywell Energy, enabling meters to be read anywhere in the world where telephone or cellular service is available. Meter reading and billing services are available.

20 Submeter Technical Resource Guide Energy Monitoring Software

Services Turn-Key Solutions A wide array of services are available for commercial, Optional turn-key solutions are available including: industrial and multi-tenant facilities including reading • Project management energy meters, generating tenant or departmental bills and • Hardware procurement creating usage profiles. Services include: • Installation through a network of certified installers • Daily meter reading • System validation • Monthly tenant billing • Meter reading • Landlord summary statements • Billing services • Utility bill consolidation (e.g., gas, water, and electric in one bill) Meter Reading Technology • Virtual metering Meter reading services are performed remotely via • Tenant and landlord help desk automatic meter reading technology, which increases • Move-in and move-out statements accuracy and eliminates tenant disruptions. Proven communication technologies include: • Historical data storage • Telephone modem • Individual tenant load profile graphs • Ethernet • Automatic rate and tariff updates • BAS Interface

Up to 4000 Feet Total Up to 8 Meters Meter #1 8 Up to 500 Feet

Up to 52 IDR 8s or Smart Meters ≈ hannel A or up to 26 IDR 16s

Up to 8 Meters Meter #1 8 Up to 500 Feet

Local/built-in ≈ USB Key* Modem Telephone hannel B Link Up to 52 IDR 8s Up to 4000 Feet Total or Smart Meters AC Adapter or up to 26 IDR 16s

Cabling Information hannel Up to 52 IDR 8s or Smart Meters ≈ E-Mon supplies meter to IDR cables in lengths of seven or up to 26 IDR 16s feet. If longer cable is required, the following cables are recommended: IDR to Meter #1-8 - six-conductor #26 AWG stranded silver satin. Max 500 feet. Communication Cable - three-conductor #18 to 22 AWG. Ethernet cable type 50060341-001, RS-485 cable, BELDEN 1120A cable or equivalent.

21 22 Submeter Technical Resource Guide Enclosure Overview

Engineered for both indoor and outdoor use and ideally suited for harsh environments, these enclosures protect against corrosion, windblown dust and rain, splashing water, hose directed water, and even prolonged submersion.

Standard Exterior Enclosure Optional Finish Exterior Dimensions Mounting JIC Steel Enclosures-Small

Flange Dimensions: Gray for all Class 1000, 2000 Class 3200 & 4” between holes meters except and Green Class Class 5000 6” H x 6” W x 3” D Left/Right, Green Class Meters Meters 6.75” between holes Meter Top/Bottom

JIC Steel Enclosures-Large

Flange Dimensions: 4” between holes Class 3400 IDR Gray 8” H x 6” W x 4.36” D Left/Right, Meters 8.75” between holes Top/Bottom

NEMA 4X Outdoor Enclosure-Small

Flange Dimensions: Class 1000, 4” between holes Class 3200, 3400 2000 & Green Gray 6.54” H x 6.54” W x 4” D Left/Right, & 5000 Meters Class Meters 6.75” between holes Top/Bottom

Non-Metallic DIN-Rail Enclosure

Standard DIN- Din-Mon Meters Gray 5.5” H x 4.3” W x 2.3” D Rail Mounting Configuration

Honeywell Metering Technical Specifications

Voltage Input Configuration 2-wire, 3-wire and 4-wire. This covers all secondary voltage supplies; single- phase, split-secondary and three-phase, both grounded and ungrounded. Voltage Input Up to 600 volts rms AC Current Range Up to 3200 amps rms AC Power Factor 0.5 leading or lagging Frequency 50 Hz to 60 Hz Accuracy Certified to ANSI C12.20 National Accuracy Standards Humidity 0-95% non-condensing Temperature Range -200°C to +500°C Voltage overload +25% continuously Current Overload Can be overloaded 100% without damaging meter Display Fully electronic LCD display (electromechanical on Class 4000 & 4100) Manual demand reset to zero (Class 1000, 2000, 2100 and Green Class only) Options Peak demand, pulse output, multiple meter unit (MMU) enclosures for 8, 16 or 24 meters, solid-core current sensors (100 & 200 amp only) Standard Ranges 120 volts; 25, 50, 100 or 200 amps 120/240 volts; 25, 50, 100, 200, 400, 800, 1600 or 3200 amps 120/208 volts; 100, 200, 400, 800, 1600 or 3200 amps 277/480 volts; 100, 200, 400, 800, 1600 or 3200 amps 347/600 volts; 100, 200, 400, 800, 1600 or 3200 amps High Voltage For 2100V, 4160V and other high-voltage applications contact Honeywell at (800) 334-3666. Outdoor/MMU Enclosures See individual meter spec sheets for enclosure options

Many Honeywell E-Mon products have been tested and approved by independent agencies including: National Approvals UL/ CUL Listed ANSI C12.20 Certified (+/- 0.2% from 1% to 100% of rated load (National Accuracy Standards) by independent test lab. State and Local Approvals CA - California Bureau of Weights & Measures, DWP-Los Angeles, SCE-Westminster, SDG&E-San Diego CO - Public Service of Colorado-DenverFL - Tampa Electric-Tampa MI - Detroit Edison-Detroit NJ - NJ Dept. of Energy-Newark, PSE&G Approved for DSM program NH - New Hampshire Electric Co.-Plymouth SC - State of SC-Columbia VA - Appalachian Power Company-Roanoke PR - PREPA Approved-Puerto Rico

25 Honeywell Metering ModBus Point Map

Class 3200, 3400, and 5000

Address Registers Format Description Units CL3200 CL3400/CL5000 Notes 40001 2 Integer Energy delivered Wh Pulse R/W R/W 1 40003 2 Integer Energy received Wh Pulse R/W R/W 1 40005 2 Integer Reactive energy delivered VARh Pulse R/W R/W 1 40007 2 Integer Reactive energy received VARh Pulse R/W R/W 1 41001 2 Float Energy delivered kWh R/W R/W 1 41003 2 Float Energy received kWh R/W R/W 1 41005 2 Float Reactive energy delivered kVARh R/W R/W 1 41007 2 Float Reactive energy received kVARh R/W R/W 1 41009 2 Float Real power kW R R 41011 2 Float Reactive power kVAR R R 41013 2 Float Apparent power kVA R R 41015 2 Float Power factor % PF R R 41017 2 Float Peak demand kW R R 41019 2 Float Current average Amps R R 41021 2 Float Voltage line-neutral Volts-N R R 41023 2 Float Voltage line-line Volts-L R R 41025 2 Float Frequency Hz R R 41027 2 Float Phase angle Degree R R 41029 2 Float Real power, phase A kW R R 41031 2 Float Real power, phase B kW R R 41033 2 Float Real power, phase C kW R R 41035 2 Float Reactive power, phase A kVAR R R 41037 2 Float Reactive power, phase B kVAR R R 41039 2 Float Reactive power, phase C kVAR R R 41041 2 Float Apparent power, phase A kVA R R 41043 2 Float Apparent power, phase B kVA R R 41045 2 Float Apparent power, phase C kVA R R 41047 2 Float Power factor, phase A % PF R R 41049 2 Float Power factor, phase B % PF R R 41051 2 Float Power factor, phase C % PF R R 41053 2 Float Current, phase A Amps R R 41055 2 Float Current, phase B Amps R R 41057 2 Float Current, phase C Amps R R 41059 2 Float Voltage, line to neutral, phase A-N Volts-N R R 41061 2 Float Voltage, line to neutral, phase B-N Volts-N R R 41063 2 Float Voltage, line to neutral, phase C-N Volts-N R R 41065 2 Float Voltage, line to line, phase A-B Volts-L R R 41067 2 Float Voltage, line to line, phase B-C Volts-L R R 41069 2 Float Voltage, line to line, phase C-A Volts-L R R 41071 2 Float Phase angle, phase A Degree R R 41073 2 Float Phase angle, phase B Degree R R 41075 2 Float Phase angle, phase C Degree R R 41083 2 Float External Input 1 Pulse R/W 2 41085 2 Float External Input 2 Pulse R/W 2 44001 6 Custom Interval Day Block R/W R/W 3 44007 1 per Integer Interval Data Pulse R R 4 interval 45501 2 per day Custom Interval Data Headers R R 5 46025 8 Custom RTC Date/Time R/W R/W 6 46049 8 Custom EZ7 ID, ModBus ID, Serial Number R/W R/W 7 46057 8 Custom Recorder Info., Demand Interval R/W R/W 46513 8 Custom Flags L1: Power Failure, Battery R R 46521 8 Custom Flags L2: Power Failure Date R R

26 Submeter Technical Resource Guide Honeywell Metering LonWorks Point Map

Class 3400 and 5000 Meters

Network Variable Name SNVT Type Description Units CL3400 CL5000 Notes nvoKWh_Del SNVT_count_inc_f Energy delivered kWh R 1 nvoKWh_Rec SNVT_count_inc_f Energy received kWh R 1 nvoKVarh_Del SNVT_count_inc_f Reactive energy delivered kVARh R 1 nvoKVarh_Rec SNVT_count_inc_f Reactive energy received kVARh R 1 nvoReal_Pwr SNVT_count_inc_f Real power kW R nvoReact_Pwr SNVT_count_inc_f Reactive power kVAR R nvoAppar_Pwr SNVT_count_inc_f Apparent power kVA R nvoPwr_Fact SNVT_pwr_fact_f Power factor % PF R nvoPeak_Dem SNVT_count_inc_f Peak demand kW R nvoCurrent_Avg SNVT_amp_f Current average Amps R nvoVolt_LN SNVT_volt_f Voltage line-neutral Volts-N R nvoVolt_LL SNVT_volt_f Voltage line-line Volts-L R nvoFrequency SNVT_freq_f Frequency Hz R nvoPhase_Angle SNVT_count_inc_f Phase angle Degree R nvoReal_Pwr_PhA SNVT_count_inc_f Real power, phase A kW R nvoReal_Pwr_PhB SNVT_count_inc_f Real power, phase B kW R nvoReal_Pwr_PhC SNVT_count_inc_f Real power, phase C kW R nvoReact_Pwr_PhA SNVT_count_inc_f Reactive power, phase A kVAR R nvoReact_Pwr_PhB SNVT_count_inc_f Reactive power, phase B kVAR R nvoReact_Pwr_PhC SNVT_count_inc_f Reactive power, phase C kVAR R nvoAppar_Pwr_PhA SNVT_count_inc_f Apparent power, phase A kVA R nvoAppar_Pwr_PhB SNVT_count_inc_f Apparent power, phase B kVA R nvoAppar_Pwr_PhC SNVT_count_inc_f Apparent power, phase C kVA R nvoPwr_Fact_PhA SNVT_pwr_fact_f Power factor, phase A % PF R nvoPwr_Fact_PhB SNVT_pwr_fact_f Power factor, phase B % PF R nvoPwr_Fact_PhC SNVT_pwr_fact_f Power factor, phase C % PF R nvoCurrent_PhA SNVT_amp_f Current, phase A Amps R nvoCurrent_PhB SNVT_amp_f Current, phase B Amps R nvoCurrent_PhC SNVT_amp_f Current, phase C Amps R nvoVolt_LN_PhA_N SNVT_volt_f Voltage, line to neutral, phase A-N Volts-N R nvoVolt_LN_PhB_N SNVT_volt_f Voltage, line to neutral, phase B-N Volts-N R nvoVolt_LN_PhC_N SNVT_volt_f Voltage, line to neutral, phase C-N Volts-N R nvoVolt_LL_PhA_B SNVT_volt_f Voltage, line to line, phase A-B Volts-L R nvoVolt_LL_PhB_C SNVT_volt_f Voltage, line to line, phase B-C Volts-L R nvoVolt_LL_PhC_A SNVT_volt_f Voltage, line to line, phase C-A Volts-L R nvoPhase_AngleA SNVT_count_inc_f Phase angle, phase A Degree R nvoPhase_AngleB SNVT_count_inc_f Phase angle, phase B Degree R nvoPhase_AngleC SNVT_count_inc_f Phase angle, phase C Degree R nvoReserve_A SNVT_count_f Reserve A No units R nvoReserve_B SNVT_count_f Reserve B No units R nvoReserve_C SNVT_count_f Reserve C No units R nvoExt_Input_1 SNVT_count_f External Input 1 Pulse R 2 nvoExt_Input_2 SNVT_count_f External Input 2 Pulse R 2

27 Honeywell Metering BACnet Object Descriptor Sample

Class 3200, 3400, and 5000

Instance ID BACnet Object Description Units BACnet Property CL3200 CL3400 CL5000 Notes 1 Analog Input Energy delivered kWh Present Value R R 1 2 Analog Input Energy received kWh Present Value R R 1 3 Analog Input Reactive energy delivered kVARh Present Value R R 1 4 Analog Input Reactive energy received kVARh Present Value R R 1 5 Analog Input Real power kW Present Value R R 6 Analog Input Reactive power kVAR Present Value R R 7 Analog Input Apparent power kVA Present Value R R 8 Analog Input Power factor % PF Present Value R R 9 Analog Input Peak demand kW Present Value R R 10 Analog Input Current average Amps Present Value R R 11 Analog Input Voltage line-neutral Volts-N Present Value R R 12 Analog Input Voltage line-line Volts-L Present Value R R 13 Analog Input Frequency Hz Present Value R R 14 Analog Input Phase angle Degree Present Value R R 15 Analog Input Real power phase A kW Present Value R R 16 Analog Input Real power phase B kW Present Value R R 17 Analog Input Real power phase C kW Present Value R R 18 Analog Input Reactive power phase A kVAR Present Value R R 19 Analog Input Reactive power phase B kVAR Present Value R R 20 Analog Input Reactive power phase C kVAR Present Value R R 21 Analog Input Apparent power phase A kVA Present Value R R 22 Analog Input Apparent power phase B kVA Present Value R R 23 Analog Input Apparent power phase C kVA Present Value R R 24 Analog Input Power factor phase A % PF Present Value R R 25 Analog Input Power factor phase B % PF Present Value R R 26 Analog Input Power factor phase C % PF Present Value R R 27 Analog Input Current phase A Amps Present Value R R 28 Analog Input Current phase B Amps Present Value R R 29 Analog Input Current phase C Amps Present Value R R 30 Analog Input Voltage line-neutral Volts-N Present Value R R phase A-N 31 Analog Input Voltage line-neutral Volts-N Present Value R R phase B-N 32 Analog Input Voltage line-neutral Volts-N Present Value R R phase C-N 33 Analog Input Voltage line-line phase Volts-L Present Value R R A-B 34 Analog Input Voltage line-line phase Volts-L Present Value R R B-C 35 Analog Input Voltage line-line phase Volts-L Present Value R R C-A 36 Analog Input Phase angle phase A Degree Present Value R R 37 Analog Input Phase angle phase B Degree Present Value R R 38 Analog Input Phase angle phase C Degree Present Value R R 39 Analog Input Reserve A No units Present Value R R 40 Analog Input Reserve B No units Present Value R R 41 Analog Input Reserve C No units Present Value R R 42 Analog Input External Input 1 Pulse Present Value R 2 43 Analog Input External Input 2 Pulse Present Value R 2

28 Submeter Technical Resource Guide BACnet PIC Statement Sample

The table below represents a sampling of the BACnet PIC Statement available from Honeywell E-Mon meters and IDRs. Visit www.emon.com for specific information for each product.

PIC STATEMENT for Class 3200, 3400, 5000, Din-Mon Meters & IDRs

BACNET PROTOCOL IMPLEMENTATION CONFORMANCE STATEMENT Date: October 2013 Vendor Name: Honeywell Vendor ID: 482 Product Name: Class 3200 Meter, Class 3400 Meter, Class 5000 Meter, Din-Mon Meter, IDR Product Model Numbers: E32-208100-RBACKIT, E34-480200-R05KIT, E50-480200-R03KIT, E-D5-480100-S12SPL3-V3KIT3, EIDR-8-R05RJ Product Description: This product will provide bi-directional communication between Honeywell BACnet MS/TP meters, BACnet IP meters, and a BACnet system.

BACnet Standardized Device Profile (Annex L): 􀀻 BACnetSmartSensor(B-SS)

BACnet Interoperability Building Blocks Supported (Annex K): 􀀻 K.1.2BIBB DataSharing ReadProperty-B(DS-RP-B) 􀀻 K.1.4BIBB DataSharing ReadPropertyMultiple-B(DS-RPM-B) 􀀻 K.5.2BIBB DeviceManagement DynamicDeviceBinding-B(DM-DDB-B) 􀀻 K.5.4BIBB DeviceManagement DynamicObjectBinding-B(DM-DOB-B) 􀀻 K.5.12BIBB DeviceManagement TimeSynchonization-B(DM-TS-B)

Segmentation Capability: None

Standard Object Types Supported: 􀀻 Device Object 􀀻 Analog Input

For all these properties the following apply: 1. Does not support BACnet CreateObject 2. Does not support BACnet DeleteObject 3. No additional writeable properties exist 4. No proprietary properties exist 5. No range restrictions exist

Data Link Layer Options: 􀀻 MS/TPmaster(Clause9),baudrate(s):9.6k,19.2k,38.4k,76.8kbps 􀀻 BACnetIP,(AnnexJ):Class3200meterdoesnotsupportBACnetIP

Static Device Address Binding: Not supported

Character Sets Supported: 􀀻 ANSI X3.4 29 What is the Correct Submeter for your Project?

Class 1000 Class 2000 Class 3200 Class 3400 Class 5000 Features and Functions Single Phase Meter Three-Phase Meter Smart Meter Smart Meter Smart Meter

120/NA, 120/208- 120/208-240, 277/480, 347/600 Voltage (L-N/L-L) 240, 277/480

Current (Amps) 25, 50, 100, 200 100, 200, 400, 800, 1600, 3200

Enclosure Type JIC Steel, NEMA 4X, MMU JIC Steel, NEMA 4X

Communications Pulse Output Pulse Output RS-485 RS-485/Ethernet RS-485/Ethernet

EZ-7, EZ-7 Ethernet Modbus RTU, EZ-7 Ethernet BACnet MS/TP, EZ-7 Ethernet EZ-7 EZ-7, Modbus TCP/IP Protocols Available Pulse Output Pulse Output Modbus RTU EZ-7, BACnet IP BACnet MS/TP Modbus RTU, Modbus TCP/IP Lon TP/FT-10, EZ-7 Ethernet Lon TP/FT-10, Modbus TCP/IP

Revenue Grade Accuracy • • • • •

Current Sensor Output 0-2 volt 0-2 volt 0-2 volt 0-2 volt 0-2 volt

Current Sensor Options Split-Core Standard, Solid-Core Available

Data Recorder • • •

External Inputs 2 Optional 2

Pulse Outputs 1 1 2 2

Modem Optional Optional

Display 2-Line LCD Display 4-Line LCD Display with Backlight

On-board set-up • • • Phase loss alarm (N.O. Contact) Optional •

Power Quality Measurement

Peak Demand Measurement Optional • • • Self Power Supply • • • • • Circuit: single phase, 2-wire • Circuit: single phase, 3-wire • • • • Circuit: 3-phase, 3-wire (delta) • • • • Circuit: 3-phase, 4-wire (wye) • • • • CE Approval • • UL/CUL Listed • • • • • ANSI C12.20 • • • • •

30 Submeter Technical Resource Guide Din-Mon D2 Din-Mon D5 Smart Meter Smart Meter

120/208-240, 277/480, 347/600

100, 200, 400, 800

Non-metallic enclosure

RS-485 RS-485, Ethernet

EZ-7, EZ-7 Ethernet Modbus RTU, EZ-7 Ethernet BACnet MS/TP, EZ-7 Ethernet EZ-7 EZ-7, Modbus TCP/IP Modbus RTU EZ-7, BACnet IP BACnet MS/TP Modbus RTU, Modbus TCP/IP Lon TP/FT-10, EZ-7 Ethernet Lon TP/FT-10, Modbus TCP/IP • • 0.333 volt, 100 mA 0.333 volt, 100 mA

Split-Core Standard, Solid-Core Available • •

2 2

4-Line LCD Display with Backlight • • • •

• • • •

• • • • • • • • • • • •

31 Surpass Your Renewable-Energy Challenges

As buildings and businesses worldwide increase their Within the United States, the leading sustainable- focus on becoming greener and more sustainable, building assessment system is currently the U.S. Honeywell electrical meters offer environmentally Green Building Council’s “Leadership in Energy and conscious users the ability to benchmark energy use, Environmental Design” (LEED) rating system. Honeywell monitor usage trends, record the impact of energy solutions support LEED certification in a variety of conservation efforts, and measure and verify the areas, including measurement and verification (M&V), effectiveness of energy saving programs. fundamental commissioning, on-site renewable energy, Honeywell meters and submetering systems are ideal green power, and regional materials. for complying with various certification programs Of the system’s nine categories, the left-hand including LEED, EPACT 2005, and EISA 2007, as well as column below lists those areas ideal for submetering demand response and renewable-energy initiatives. applications, including Water Efficiency (WE) and Energy and Atmosphere (EA) credits.

LEED Certification Category Credit Certification Points Applicable Guideline

Core & Shell EA Credit 5.1 1 Measurement & Verification-Base Building Core & Shell EA Credit 5.2 1 Measurement & Verification-Tenant Submetering

Existing Buildings WE Credit 1.2 1 Water Performance Measurement: Submetering Existing Buildings EA Credit 5.1-5.3 1-3 Performance Measurement: Enhanced Metering Existing Buildings EA Credit 6 1 Documenting Sustainable Building Cost

New Construction EA Credit 5 1 Measurement & Verification

Commercial Interiors EA Credit 1 1 Optimize Energy Performance Commercial Interiors EA Credit 3 1-2 Energy Use, Measurement & Payment Accountability

Schools EA Credit 5 2-10 Optimize Energy Performance

Healthcare WE Credit 2 1 Measurement & Verification Healthcare EA Credit 1 2-10 Optimize Energy Performance Healthcare EA Credit 5 1 Measurement & Verification

BACnet® is a registered trademark of American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE). Modbus® registered trademark of Modbus Organization, Inc. EZ-7® registered trademark of E-Mon, LLC LonWorks® is a trademark of Echelon Corporation.