DOCSLIB.ORG

Electronic Circuits for the Hobbyist, by VA3AVR Circuits for the Hobbyist by VA3AVR

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Electronic Circuits for the Hobbyist, by VA3AVR Circuits for the Hobbyist by VA3AVR Electronic Circuits for the Hobbyist, by VA3AVR Circuits for the Hobbyist by VA3AVR Tony's Message Forum Ask your questions here. Someone may answer them. Relays - Sound Activated Active Power Zener Relays - Transistor Boosted Active Antenna for AM-FM-SW Relays - Delayed Turn-on Active Antenna for HF-VHF-UHF Relays - Automatic Turn-off Active FM Antenna Amplifier Relays - Long Duration Aviation Band Receiver 2SC2570 Pin- Relays - Long Duration--1 to 100 min out, 12-17-2004 Relays - Long Duration--1 min to 20 hrs Alternating On-Off Switch Relays - Self Latching Audio Booster with 1 Transistor RF Transmitter, light sensing Audio Pre-Amplifier #1 RJ45 Cable Tester Modified version (Bruce Automatic 9-Volt NiCad Battery Charger Auto-Fan, automatic temperature control Marcus) ScanMate Your (Radio) scanner buddy! Basic IC MonoStable Multivibrator Simplest R/C Circuit Basic RF Oscillator #1 Simplest RF Transmitter Basic LM3909 Led Flasher Simple Transistor Audio PreAmplifier Battery Monitor for 12V Lead-Acid Single IC Audio Preamplifier Battery Tester for 1.5 & 9V Single Cell Sealed Lead Acid Charger - by Battery (NiCad) Rejuvenator Bench Top Power Supply, Part 1 Søren Solar Cell NiCad Charger Bench Top Power Supply, Part 2 Solid State Relay Bench Top Power Supply, Part 3 Stun Gun circuits on Chemelec's site Bench Top Power Supply, Part 4 Pics Third Brake Light Pulser Bench Top Power Supply, Auto-Fan Touch Activated Alarm System Bicycle Light with charger (soon) Birdie Doorbell Ringer Touch Switch using Transistors Broadcast-Band RF Amplifier Two-Tone Trainhorn 'Bug' Detector with Beep Universal Flasher Circuit Variable Power Supply, 1 - 30V @ 1.5A Car Back-up Alarm Wailing Alarm Car Converter for 12V to 9V Water-level Sensing and Control Car NiCad Charger Waterpump Safety Guard for Fish-pond Christmas Lights Tester Weller WLC100 Electronic Soldering Station Clock Generator Continuity Tester, Low-Voltage Wireless Microphone Continuity Tester, Smart Xmas Lights Tester Continuity Tester, Latching Zap Adapter Cut Phone Line Detector 1.5V Tracking Transmitter Dark/Light Activated Relay 4-Transistor Tracking Transmitter Dazer 7.2V Field Charger (.pdf file) DC Motor Reversing Circuit 9-V Stabilized Powersupply DC Motor Control Circuit 9 to 9 pin (Female) Nullmodem Cable DSL Filter (phone-line) 12V to 9V with a LM317 Amp Booster added Dual 12V Power Supply 30-Meter QRP Transmitter for Morse Code Fluid-Level Detector 555 DC-AC Inverter Fox & Hound, wire tracer 555 Timer IC Tester Gadgets for Radio Control Page 555 Go No/Go Tester More advanced Gel Cell Charger, I Electronic Symbols Template - Paint Shop Pro 10-27-2004 Gel Cell Charger, II Headlight Alarm Heat Sensor -- OFF-LINE (performance problems) Lantern Flasher/Dimmer 555 Timer/Oscillator Led Flasher, 2 transistor 741 Op-Amp Leds Flasher, alternately Capacitors Added Fig.3b, 10-27-2004 LED Pilot Light (AC or DC) Electronic Template Light Sensor With Hysteresis MosFet Test Logic Probe(1), with pulse, TTL/CMOS Piezo Education/Tutorial Logic Probe(2), with pulse, TTL/CMOS PLL Logic Probe(3), Audible, TTL/CMOS Resistor Color Code Tutorial Spelling, 8-05- Micro-Spy with FET's 2004 Micro-Spy with USW SCR Tester Micro-Spy with TTL Triac Test Miniature FM Transmitter #1 UJT Test Miniature FM Transmitter #2 Coils Miniature FM Transmitter #3 Integrated Circuits Miniature FM Transmitter #4 Make Your Own Shunts Mini-Drill variable Powersupply Relays, Relay Drivers, Solid-State Missing Pulse Detector (Basic) Morse Code Practice Keyer, I "Green" means on-line, "Red" means off-line Morse Code Practice Keyer, II Motor Accu Lader (Dutch language) Motorcycle Battery Charger Bookmark this valuable page with 'Ctrl-D'. No-Hassle Third Brake Light Power Supply Converted from a PC (link) Practical Intercom Pulse Timer, 555 Pulse Width modulator, 555 Pulse Width modulator, 4093 Radio Shack Special - Transmitters by Patrick Cambre Just in case you're gonna ask: All drawings are created with Paint Shop Pro Circuits Archive - Older circuits. Most are working, some are not. Could be still useful. Tony's Data Sheets - Data Sheet for common Semiconductors Data Sheets Archive - Link to tons of data sheets. Radio Shack Partnumbers - Most common order numbers for my circuits Resistor Value Calculator - By Danny Goodman, AE9F Tandy Corporation - European/Australian counterpart of Radio Shack Transistor 'SM' marking codes by Philips TUP/TUN/DUS/DUG European transistor replacement system PN100/200 - Data Sheets for the PN100 and PN200 LF13741 - Monolitic JFET Input OpAmp Data Sheet Toroids, RF/EMI Cores - Variety of commonly used toroids, colors, etc. Guelph Amateur Radio Club - GARC--Official Homepage Jonathan's Electronics Message Forum - More help if you need it! Other Interesting Links - Links to other interesting and informative Electronics Websites. November 1, 2004 DISCLAIMER: I take no responsibility whatsoever for the use and/or implementation thereof, or the misuse leading to damage to equipment, property, or life, caused by the above circuits. Check with local, provincial and federal laws before operating some of these devices. You may also check your life insurance and/or the fact if they cover death by electrocution if you intend to play with Micro-wave ovens and other possible lethal HV devices. Safety is a primary concern when working with high power circuits or con/inverters. Play it safe! Copyright © 1995, Tony van Roon (VA3AVR). ALL RIGHTS RESERVED. Last Updated December 17, 2004 http://www.uoguelph.ca/~antoon/circ/circuits.htm [1/2/05 12:23:36 PM] Alternating ON-OFF Switch Back to Circuits page Page Copyright © 1995 -- Tony van Roon http://www.uoguelph.ca/~antoon/circ/pwrzener.html [1/2/05 12:23:37 PM] AM-FM-SW Active Antenna Active Antenna for AM/FM/SW: This simple little circuit can be used for AM, FM, and Shortwave(SW). On the shortwave band this active antenna is comparable to a 20 to 30 foot wire antenna. It is further more designed to be used on receivers that use untuned wire antennas, such as inexpensive units and car radios. L1 can be selected for the application. A 470µH coil works on lower frequencies and lie in AM, for shortwave try a 20µH coil. This unit can be powered by a 9 volt alkaline battery. If a power supply is used, bypass the power supply with a 0.04µF capacitor to prevent noise pickup. The antenna used on this circuit is a standard 18-inch telescoping type, but a thick piece of copper, bus-bar, or piano wire will also work fine. The heart of this circuit is Q1, a JFET-N-Channel, UHF/VHF amplifier in a TO-92 case. It can be replaced with an NTE451. Output is taken from jack J1 and run to the input on the receiver. Source: "Popular Electronics" magazine, July 1989 issue. Copyright © Gernsback Publications, Inc. 1989. (Gernsback no longer in business). Back to Circuits page Copyright © 2003 - Tony van Roon http://www.uoguelph.ca/~antoon/circ/activant.html [1/2/05 12:23:38 PM] Active Antenna AA-7 HF/VHF/UHF, 3-3000MHz, Antenna booster Active Antenna AA-7 HF/VHF/UHF, 3 to 3000 MHz By Fred Blechman "Lift those hard-to-hear signals out of the mud with this handy receiver accessory." If you have a shortwave or high-frequency receiver or scanner that is struggling to capture signals with a short, whip antenna, and you'd like the kind of performance that a 60-foot longwire antenna can provide but lack the space to put one up, consider building the AA-7 HF/VHF/UHF Active Antenna described in this article. The AA-7 is a relatively simple antenna that is designed to amplify signals from 3 to 3000 MegaHertz, including three recognized ranges: 3-30Mhz high-frequency (HF) signals; 3-300Mhz very- high frequency (VHF) signals; 300-3000MHz ultra-high (UHF) frequency signals. Those bands are typically occupied by shortwave, ham, government, and commercial radio signals. Active Antennas: In its simplest form, an active antenna uses a small whip antenna that feeds incoming RF to a preamplifier, whose output is then connected to the antenna input of a receiver. Unless specifically designed otherwise, all active antennas are intended for receive-only operation, and thus should not be used with transceivers; transmitting into an active antenna will probably destroy its active components. A well designed broadband active antenna consider field strength of the desired signal (measured in microvolts per meter of antenna length), atmospheric and other noise, diameter of the antenna, radiation resistance, and antenna reactance at various frequencies, plus the efficiency and noise figure of the amplifier circuit itself. Circuit Description: Fig. 1 shows the schematic diagram of the AA-7, which contains only two active elements; Q1 (an MFE201 N-Channel dual-gate MOSFET) and Q2 (a 2SC2570 NPN VHF silicon transistor). Those transistors provide the basis of two independent, switchable RF pre-amplifiers. Two double-pole double-throw (DPDT) switches play a major role in this operation of the AA-7. Switch S1 is used to select one of the two preamplifier circuits (either HF or VHF/UHF). Switch 2 is used to turn off the power to the circuit, while coupling the incoming RF directly to the input of the receiver. That gives the receiver non-amplified access to the auxiliary antenna jack, at J1, as well as the on-board telescoping whip antenna. With switch S2 in its power-on position, the input and ouput jacks are disconnected and B1 (a 9 volt battery) is connected to the circuit. With switch S1 in the position shown in the schematic, incoming RF is directed to the HF preamp circuit built around Q1 (an MFE201 N-Channel dual-gate MOSFET). The HF preamp operates with an exceptionally low noise level, and is ideal for copying weak CW and singe-side band signals.
Load more

Recommended publications
  • An Evaluation of Bipolar Transistors Suitable for Active Antenna Applications
    An Evaluation of Bipolar Transistors Suitable for Active Antenna Applications by Chris Trask / N7ZWY Sonoran Radio Research P.O. Box 25240 Tempe, AZ 85285-5240 Senior Member IEEE Email: [email protected] 30 November 2008 Revised 2 December 2008 Revised 5 December 2008 Revised 15 December 2008 Trask, “Bipolar Transistor Evaluation” 1 15 December 2008 Introduction families on a curve tracer or by measuring the performance of the device in a circuit. In the design of active antennas, the intermodulation distortion (IMD) and noise fig- When using a curve tracer, there are a ure (NF) performance of the active devices are number of items that need to be carefully ob- important design considerations together with served in order to ascertain the potential IMD cost and availability. Many designs that have performance of a given device. These include, been published in recent years claim to have but are not limited to, the flatness of the indi- good IMD performance, but make use of de- vidual traces in the linear region, the straight- vices that were obsolete even when the circuitry ness of the individual traces in the linear region, was in the design stage. Other devices that the spacing between the traces, the saturation are readily available have improved perform- voltage, and the transition between the satura- ance, and it may simply be a matter of the de- tion region and the linear region. signers lacking sufficient information to make intelligent choices so as to arrive at finished Curve families for bipolar devices are gen- designs having a performance/cost ratio that erated by applying a fixed base current (IB) to would be attractive to builders and which make the device and then varying the collector volt- use of devices that are currently in production age (VCE)while observing the collector current and which are available from popular distribu- (IC).
    [Show full text]
  • Ferranti Quick Reference Guide
    FERRANTI SEMICONDUCTORS A short-form data book covering discrete components & integrated circuits @ FERRANTI pic 1983 The copyright in this work is vested in Ferranti pic and this document is issued for the purpose only for which it is supplied. No licence is implied for the use of any patented feature. It must not be reported in whole or in part or used for tendering or manufacturing purposes except under an agreement or with the consent in writing of Ferranti pic and then only on the condition that this notice is included in any such reproduction. Information furnished is believed to be accurate but no liability in respect of any use of it is accepted by Ferranti pic. Issue 2. February 1983 Prinled in U.S.A. iii CONTENTS This data book contains abbreviated information on the entire range of Ferranti Semiconductors. Individual data sheets are available on request, as is technical advice on the usage of any of the devices listed. PRODUCT LIST SECTION 1 DISCRETE COMPONENTS SECTION 2 INTEGRATED CIRCUITS SECTION 3 UNCOMMITTED LOGIC ARRAYS SECTION 4 PACKAGE OUTLINES SECTION 5 SALES OFFICES, SALES REPRESENTATIVES DISTRIBUTORS (ii) ALPHA·NUMERIC PRODUCT LIST DEVICE TYPE PAGE(S) DEVICE TYPE PAGE(S) DEVICE TYPE PAGE(S) BAT21 H13. H14 BC182P E4 BCW29 H5 BAT21J H13. H14 BC183P E5 BCW29R H5 BAT22 H13. H14 BC184P E9 BCW30 H5 BAT22J H13. H14 BCW30R H5 BAT23 H13. H14 BC212P E6 BCW31 H5 BAT23H H13. H14 BC213P E6 BCW31R H5 BC214P E10 BAT24 H13. H14 BAT24H H13. H14 BC237P E4 BCW32 H5 BAT25 H13. H14 BC238P E5 BCW32R H5 BAT26 H13.
    [Show full text]
  • Vax 6135 Car Vax Uk - Service Parts List
    VAX 6135 CAR VAX UK - SERVICE PARTS LIST Item Vax Part No. Description Price Code Service Item Item Vax Part No. Description Price Code Service Item 2 1-2-31-01-006 FILTER-FOAM-EXHAUST S1 CS 34 1-2-30-01-015 SEAL-FILTER/RESERVOIR K1 S 5 1-2-11-04-007 CABLE CLAMP L1 CS 35 1-3-15-03-007 FILTER HSG ASSY-UNIV-BLACK T3 S 29 1-2-31-01-002 FILTER DISC-BONDINI A1 CS 39 1-2-14-02-001 BALL VALVE N1 S 32 1-2-31-01-007 FILTER -FIBRE-MOULDED X1 CS 40 1-3-09-06-007 RESERVOIR ASSY-UNIV-BLACK W3 S 44 1-3-13-02-001 UPHOLSTERY TOOL Y1 CS 41 1-2-30-02-002 SEAL-CONICAL DUCT D2 S 47 1-2-39-01-010 CREVICE TOOL Y1 CS 42 1-2-30-02-003 SEAL-EXHAUST D2 S 48 1-3-13-01-001 DUSTBRUSH H2 CS 43 1-2-124731-12 RECOVERY BUCKET/SPIDER ASSY Z3 S 50 1-2-13-02-002 TUBE-EXTN-STAINLESS B3 CS 45 1-2-32-01-002 CASTOR-TWO WHEEL X1 S 52 1-3-18-01-022 HOSE & GRIP ASSY W3 CS 60 1-9-124423-00 TUBE-PUMP TO QRV A1 S 53 1-9-124962-00 WASH HEAD J3 CS 62 1-1-06-01-073 FEMALE QRV ASSY S2 S 54 1-9-124961-00 FLOOR BRUSH F3 CS 63 1-3-124422-00 ELBOW-QRV-ET408 C2 S 64 1-2-11-03-007 RETAINER CLIP-SPRING H1 CS 65 1-2-13-04-008 INLET TUBE-PVC A1 S 74 1-2-124594-00 UPHOLSTERY WASH TOOL K3 CS 66 1-3-124424-00 FIXING STRAP-ET408 L1 S 75 1-9-125226-00 TURBO TOOL-100mm R3 CS 67 1-7-124677-00 FILTER-WATER-INLET E2 S 77 1-9-125549-00 CREVICE TOOL-EXTRA LONG G2 CS 68 1-5-124419-00 PUMP-ET408 S3 S 101 1-2-124805-00 WATER TUBE ASSY-STRAIGHT Z2 CS 69 1-6-124425-00 SEAL-PUMP ET408 L1 S 3 1-3-124588-03 COVER-ACCESS-B R GREEN X1 NS 99 1-2-07-03-001 DUCT-CONICAL X1 S 6 1-2-36-04-004 CORD PROTECTOR A1 NS 102
    [Show full text]
  • CS 6290 Chapter 1
    Spring 2011 Prof. Hyesoon Kim Xbox 360 System Architecture, „Anderews, Baker • 3 CPU cores – 4-way SIMD vector units – 8-way 1MB L2 cache (3.2 GHz) – 2 way SMT • 48 unified shaders • 3D graphics units • 512-Mbyte DRAM main memory • FSB (Front-side bus): 5.4 Gbps/pin/s (16 pins) • 10.8 Gbyte/s read and write • Xbox 360: Big endian • Windows: Little endian http://msdn.microsoft.com/en-us/library/cc308005(VS.85).aspx • L2 cache : – Greedy allocation algorithm – Different workloads have different working set sizes • 2-way 32 Kbyte L1 I-cache • 4-way 32 Kbyte L1 data cache • Write through, no write allocation • Cache block size :128B (high spatial locality) • 2-way SMT, • 2 insts/cycle, • In-order issue • Separate vector/scalar issue queue (VIQ) Vector Vector Execution Unit Instructions Scalar Scalar Execution Unit • First game console by Microsoft, released in 2001, $299 Glorified PC – 733 Mhz x86 Intel CPU, 64MB DRAM, NVIDIA GPU (graphics) – Ran modified version of Windows OS – ~25 million sold • XBox 360 – Second generation, released in 2005, $299-$399 – All-new custom hardware – 3.2 Ghz PowerPC IBM processor (custom design for XBox 360) – ATI graphics chip (custom design for XBox 360) – 34+ million sold (as of 2009) • Design principles of XBox 360 [Andrews & Baker] - Value for 5-7 years -!ig performance increase over last generation - Support anti-aliased high-definition video (720*1280*4 @ 30+ fps) - extremely high pixel fill rate (goal: 100+ million pixels/s) - Flexible to suit dynamic range of games - balance hardware, homogenous resources - Programmability (easy to program) Slide is from http://www.cis.upenn.edu/~cis501/lectures/12_xbox.pdf • Code name of Xbox 360‟s core • Shared cell (playstation processor) ‟s design philosophy.
    [Show full text]
  • MPC5634M Microcontroller Data Sheet, Rev
    Freescale Semiconductor MPC5634M Rev. 9.2, 01/2015 MPC5634M Microcontroller Datasheet This is the MPC5634M Datasheet set consisting of the following files: • MPC5634M Datasheet Addendum (MPC5634M_AD), Rev. 1 • MPC5634M Datasheet (MPC5634M), Rev. 9 © Freescale Semiconductor, Inc., 2015. All rights reserved. Freescale Semiconductor MPC5634M_AD Datasheet Addendum Rev. 1.0, 01/2015 MPC5634M Microcontroller Datasheet Addendum This addendum describes corrections to the MPC5634M Table of Contents Microcontroller Datasheet, order number MPC5634M. 1 Addendum List for Revision 9 . 2 For convenience, the addenda items are grouped by 2 Revision History . 2 revision. Please check our website at http://www.freescale.com/powerarchitecture for the latest updates. The current version available of the MPC5634M Microcontroller Datasheet is Revision 9. © Freescale Semiconductor, Inc., 2015. All rights reserved. 1 Addendum List for Revision 9 4 Table 1. MPC5634M Rev 9 Addendum Location Description Section 4.11, “Temperature In “Temperature Sensor Electrical Characteristics” table, update the Min and Max value of Sensor Electrical “Accuracy” parameter to -20oC and +20oC, respectively. Characteristics”, Page 81 2 Revision History Table 2 provides a revision history for this datasheet addendum document. Table 2. Revision History Table Rev. Number Substantive Changes Date of Release 1.0 Initial release. 12/2014 MPC5634M_AD, Rev. 1.0 2 Freescale Semiconductor How to Reach Us: Information in this document is provided solely to enable system and software Home Page: implementers to use Freescale products. There are no express or implied copyright freescale.com licenses granted hereunder to design or fabricate any integrated circuits based on the Web Support: information in this document. freescale.com/support Freescale reserves the right to make changes without further notice to any products herein.
    [Show full text]
  • Optoisolators Transistors
    TRANSISTORS TRANSISTORS CAT# Description Price 100 2N2222A NPN, TO-18 2 for $1.50 .60 2N2906 PNP, TO-18 2 for $1.00 .35 PN2907 PNP, TO-92 5 for .75 .10 2N3055 NPN, TO-3 $2.35 each 2.00 TO-18 TO-92 TO-202 TO-218 TO-220 TO-3 2N3904 NPN, TO-92 5 for .75 .13 2N3906 PNP, TO-92 5 for .75 .13 TRIAC 2N4124 NPN, TO-92 5 for .75 .13 2N4400 NPN, TO-92 5 for .50 .08 CAT# AMP VOLT CASE Each 10 2N4401 NPN, TO-92 5 for .75 .13 Q6025P 25 600 TO-3 base 3.00 2.50 2N4403 PNP, TO-92 10 for .80 .05 2N5401 PNP, TO-92 .25 each .20 SCR 2N5416 PNP, TO-39 $1.95 each 2SC2352 NPN, TO-92 3 for 1.00 .29 8A 200V TO-202 SCR. 200 uA gate current. 2SC3457 NPN, TO-220 .65 each .50 CAT# S306B1 45¢ each • 10 for 40¢ each 2SC5511 NPN, TO-220 .95 each .75 BC556B PNP, TO-92 5 for $1.00 Gate sensitive SCR, Teccor T106F41. D33D30 NPN, TO-92 5 for $1.00 .16 Off-state voltage: 50V. Gate trigger, D45H5 PNP, TO-220 .75 each .65 Gate: 200uA 3-pin DIP package. KSP8599 PNP, TO-92 5 for .50 .08 CAT# T106F41 2 for $1.00 MJL1302A PNP, TO-264 $3.00 each MPS8599 PNP, TO-92 5 for .50 .08 N-CHANNEL J-FET PN2222A NPN, TO-92 5 for .80 .15 TIP31C NPN, 3A 100V, TO220 .45 each .35 30V 350MW.
    [Show full text]
  • Automated Synthesis of Symbolic Instruction Encodings from I/O Samples
    Automated Synthesis of Symbolic Instruction Encodings from I/O Samples Patrice Godefroid Ankur Taly Microsoft Research Stanford University PLDI’2012 Page 1 June 2012 Need for Symbolic Instruction Encodings Symbolic Execution is a key l 1 : m o v eax, i n p 1 component of precise binary m o v c l , i n p 2 program analysis tools s h l eax, c l j n z l2 j m p l3 - SAGE, BitBlaze, BAP, etc. l 2 : d i v ebx, eax // Is this safe ? - Static analysis tools / / I s e a x ! = 0 ? l 3 : … PLDI’2012 Page 2 June 2012 Problem: Symbolic Instruction Encoding Bit Vector[X] Instruction Bit Vector[Y] Inp 1 ? Op1 Inpn Opm Problem: Given a processor and an instruction name, symbolically describe the input-output function for the instruction • Express the encoding as bit-vector constraints (ex: SMT-Lib format) PLDI’2012 Page 3 June 2012 So far, only manual solutions… • From the instruction architecture manual (X86, ARM, …) implemented by the processor Limitations: • Tedious, expensive - X86 has more than 300 unique instructions, each with ~10 OPCodes, 2000 pages • Error-prone - Written in English, many corner cases • Imprecise - Spec is often under-specified • Partial - Not all instructions are covered X86 spec for SHLD • Can we trust the spec ? PLDI’2012 Page 4 June 2012 Here: Automated Synthesis Approach Searches for a function f that respects truth table Partial Truth- table S Sample inputs Synthesis Function (C with in-lined engine f assembly) Goals: • As automated as possible so that we can boot-strap a symbolic execution engine on an arbitrary instruction
    [Show full text]
  • TRANSISTORS N-CHANNEL MOSFETS, SURFACE MOUNT IRF540NS 100V, 33A, 44M Ohms
    TRANSISTORS N-CHANNEL MOSFETS, SURFACE MOUNT IRF540NS 100V, 33A, 44M Ohms. CAT# IRF540NS 95¢ each 10 for 85¢ each • 100 for 70¢ each TO-18 TO-92 TO-218 TO-220 TO-3 RF1S640 18A, 200V, 0.180 Ohm CAT# RF1S640 65¢ each TRIAC 10 for 60¢ each • 100 for 45¢ each CAT# AMP VOLT CASE Each 10 900v. TO-263. MAC223A8 25 600 TO-220 1.85 1.75 IRFBF20S Q6015L5 15 600 TO-220 1.60 1.40 CAT# IRFBF20S 60¢ each Q6025P 25 600 TO-3 base 5.50 5.15 BUK92150-55A. 55V, 11A, 36W, 97m Ohm. CAT# BUK92150 4 for $1.00 N-CHANNEL J-FET 100 for 19¢ each 30V 350MW. TO-92 package. CAT# 2N5638 5 for $1.00 • 100 for 15¢ ea. TRANSISTORS CAT# Description Price 100 N-CHANNEL MOSFETS, TO-220 D33D30 NPN, TO-92 5 for $1.00 .16 D45H5 PNP, TO-220 .75 each .65 BUZ11A 26 Amp, 50 Volt, 0.055 Ohms. PN2222A NPN, TO-92 5 for .80 .15 With right-angle pre-formed leads. 2N2222A NPN, TO-18 2 for 1.00 .40 2N2906 PNP, TO-18 2 for $1.00 .35 CAT# BUZ11A 75¢ each PN2907 PNP, TO-92 5 for .75 .10 10 for 65¢ each 100 for 55¢ each MJE2955T PNP, TO-220 .65 each MJE3055T NPN, TO-220 .65 each BUZ71A ST Micro. 50V, < 0.12 Ohms , 13 A. 2N3055 NPN, TO-3 $1.25 each .95 CAT# BUZ71A 75¢ each 2N3904 NPN, TO-92 5 for .75 .13 10 for 65¢ each • 100 for 53¢ each 2N3906 PNP, TO-92 5 for .75 .13 2N4124 NPN, TO-92 5 for .75 .13 2N4400 NPN, TO-92 5 for .50 .08 IRF734 1.2 Ohms (max.).
    [Show full text]
  • Toshiba 32-Bit Arm Core-Based Microcontroller Product Guide
    SUBSIDIARIES AND AFFILIATES (As of July 1, 2017) Toshiba America Toshiba Electronics Europe GmbH Toshiba Electronics Asia, Ltd. Nov. 2017 Semiconductor Catalog Nov. 2017 Electronic Components, Inc. • Düsseldorf Head Office Tel: 2375-6111 Fax: 2375-0969 • Irvine, Headquarters Tel: (0211)5296-0 Fax: (0211)5296-400 Toshiba Electronics (China) Co., Ltd. BCE0085H Tel: (949)462-7700 Fax: (949)462-2200 • France Branch • Shanghai Head Office • Buffalo Grove (Chicago) Tel: (1)47282181 Tel: (021)6139-3888 Fax: (021)6190-8288 Tel: (847)484-2400 Fax: (847)541-7287 • Italy Branch • Beijing Branch • Duluth/Atlanta Tel: (039)68701 Fax:(039)6870205 Tel: (010)6590-8796 Fax: (010)6590-8791 Tel: (404)639-9520 Fax: (404)634-4434 • Munich Office • Chengdu Branch • El Paso Tel: (089)20302030 Fax: (089)203020310 Tel: (028)8675-1773 Fax: (028)8675-1065 Tel: (915)533-4242 • Spain Branch • Hangzhou Office • Marlborough Tel: (91)660-6794 Tel: (0571)8717-5004 Fax: (0571)8717-5013 Tel: (508)481-0034 Fax: (508)481-8828 • Sweden Branch • Nanjing Office • Parsippany Tel: (08)704-0900 Fax: (08)80-8459 Tel: (025)8689-0070 Fax: (025)5266-5106 Tel: (973)541-4715 Fax: (973)541-4716 • U.K. Branch • Qingdao Branch 32-Bit Microcontrollers 32-Bit Microcontrollers • San Jose Tel: (1932)841600 Tel: (532)8579-3328 Fax: (532)8579-3329 Tel: (408)526-2400 Fax: (408)526-2410 Toshiba Electronics Asia (Singapore) Pte. Ltd. • Shenzhen Branch • Wixom (Detroit) Tel: (65)6278-5252 Fax: (65)6271-5155 Tel: (0755)3686-0880 Fax: (0755)3686-0816 Tel: (248)347-2607 Fax: (248)347-2602 Toshiba Electronics Service (Thailand) Co., Ltd.
    [Show full text]
  • Z3/EV Z3/EV Is One of the Experiment Boards That Constitute the Interactive Practical Electronics System – I.P.E.S
    INTRODUCTION Z3/EV Z3/EV is one of the experiment boards that constitute the Interactive Practical Electronics System – I.P.E.S. It consists of a set of components and circuits for performing BE (32 BIT experiments. The lessons included in this module can be developed in: MICROPROCESSORS) - Standard mode: using the switches of the equipment and consulting the handbook; -Computerized mode: the interactive software version of the handbook - SW-D-Z3/EV - interfaced to the module via Control Unit SIS3-U/EV, is used. This software inserts circuit variations and faults automatically enabling the development of lessons even without teacher’s assistance. Z3/EV The Z3/EV 32-bit microprocessor board is a system developed for studying the most advanced microprocessors, and their most important applications. It contains all typical components of microprocessor systems: the microprocessor, RAM, EPROM, digital and analog I/O devices, etc. The choice of the microprocessor used also on Personal Computers makes it a necessary educational equipment for studying the hardware and software structure of the Personal Computer. The instructions of the program to be carried out are usually entered from the keyboard and displayed on the module TRAINING PROGRAM: display. • Programming of 32-bit microprocessor systems: ELECTRONICS AND SYSTEMS When the complexity of the applications to be developed programming introduction, machine code and assembler increases, the system can be connected to a Personal Computer language programming, advanced programming; creating
    [Show full text]
  • 6.101 Course Roadmap Time Domain Analysis
    6.101 Course Roadmap • Passive components: RLC –with RF • Diodes • Transistors: BJT, MOSFET, antennas • Op‐amps, 555 timer, ECG • • Course Roadmap Switch Mode Power Supplies • Rectification • • Bipolar Junction Transistor Fiber optics, PPG • Applications Acnowledgements: Neamen, Donald: Microelectronics Circuit Analysis and Design, 3rd Edition The Art Of Electronics by Horowitz and Hill 6.101 Spring 2020 Lecture 3 1 6.101 Spring 2020 Lecture 3 2 Time Domain Analysis Fourier Series ‐ Ramp v (Ac KAm cosmt)*cosct KA v A cos t m [cos( )t cos( )t] c c 2 c m c m function [ t, sum ] = ramp(number) %generate a ramp based on fixed number of terms % t = 0:.1:pi*4; % display two full cycles with 0.1 spacing sum = 0 for n=1:number sum = sum + sin(n*t)*(-1)^(n+1)/(n*pi); end plot(t, sum) shg end 6.101 Spring 2020 Lecture 3 3 6.101 Spring 2020 Lecture 3 4 CT: center tap Rectifier Circuits Full Wave Bridge vs Center Tapped + 1N4001 + V = 120 V 60 Hz 12.6 VCT RMS C F R L v OUT out - Pri Sec 3a) Half-wave rectifier circuit diagram 1N4001 + + 120 V 60 Hz 12.6 VCT RMS C F R L v OUT Vout = - Pri Sec Center tapped advantages: 1N4001 3b) Full-wave rectifier circuit diagram • Lower diode voltage drop (high efficiency) 4x 1N4001 + • Secondary windings carries ½ average + 12.6 VCT RMS 120 V 60 Hz CF R v L OUT Vout = current (thinner windings, easier to wind) - Pri Sec • Used in computer power supplies 3c) Bridge rectifier circuit diagram RC >> 16.6ms why? 6.101 Spring 2020 Lecture 3 5 6.101 Spring 2020 Lecture 3 6 Power Supply Ripple Voltage Calculation Physical Wiring Matters D2 conduction angle in degrees 6.101 Spring 2020 Lecture 3 7 6.101 Spring 2020 Lecture 3 8 5 V Adapters Diode AC Resistance 500 ma 1000 ma 300 ma 6.101 Spring 2020 Lecture 3 9 6.101 Spring 2020 Lecture 3 10 Log Amplifier Bipolar Junction Transistors bypass caps 0.1uf caps (2) NPN collector • BJT can operate in a linear ic = βib mode (amplifier) or can ID i IR = - ID b operate as a digital switch.
    [Show full text]
  • Problem Solving and Troubleshooting in AIX 5L
    Front cover Problem Solving and Troubleshooting in AIX 5L Introduction of new problem solving tools and changes in AIX 5L Step by step troubleshooting in real environments Complete guide to the problem determination process HyunGoo Kim JaeYong An John Harrison Tony Abruzzesse KyeongWon Jeong ibm.com/redbooks International Technical Support Organization Problem Solving and Troubleshooting in AIX 5L January 2002 SG24-5496-01 Take Note! Before using this information and the product it supports, be sure to read the general information in “Special notices” on page 439. Second Edition (January 2002) This edition applies to IBM ^ pSeries and RS/6000 Systems for use with the AIX 5L Operating System Version 5.1 and is based on information available in August, 2001. Comments may be addressed to: IBM Corporation, International Technical Support Organization Dept. JN9B Building 003 Internal Zip 2834 11400 Burnet Road Austin, Texas 78758-3493 When you send information to IBM, you grant IBM a non-exclusive right to use or distribute the information in any way it believes appropriate without incurring any obligation to you. © Copyright International Business Machines Corporation 1999-2002. All rights reserved. Note to U.S Government Users – Documentation related to restricted rights – Use, duplication or disclosure is subject to restrictions set forth in GSA ADP Schedule Contract with IBM Corp. Contents Figures . xiii Tables . xv Preface . xvii The team that wrote this redbook. xvii Special notice . xix IBM trademarks . xix Comments welcome. xix Chapter 1. Problem determination introduction. 1 1.1 Problem determination process . 3 1.1.1 Defining the problem . 3 1.1.2 Gathering information from the user .
    [Show full text]