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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LT1130CNW Linear Technology 5V RS232 5 DRIVER/5 RCV 28-DIP
LM308AMN8 Linear Technology IC OP-AMP, PDIP8, PLASTIC, DIP-8, Operational Amplifier
LT1008MN8 Linear Technology IC OP-AMP, PDIP8, PLASTIC, DIP-8, Operational Amplifier
LT1077AMN8 Linear Technology IC OP-AMP, PDIP8, PLASTIC, DIP-8, Operational Amplifier
LT1122AMN8 Linear Technology IC OP-AMP, PDIP8, PLASTIC, DIP-8, Operational Amplifier
LT1127AMN14 Linear Technology IC QUAD OP-AMP, PDIP14, 0.300 INCH, PLASTIC, DIP-14, Operational Amplifier

SW-DIP-2 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2011 - crystal 433mhz

Abstract: SW-DIP "SW-DIP" SW-DIP 6 SWDIP HT12E2T4 HT16C2T3 decoder HT16C2T3 HT16C2Tx HT12
Text: . 2 Block Diagram. 2 Pin Assignment , voltage: 2V ~ 3.6V Low standby current: 1µA (typ.) at VDD=3V Data trigger function Provides 2 , Frequency 3: 300MHz~365MHz 4: 365MHz~450MHz Bit Time (Td) 2 : 1ms Address (Dip switch) No. C: 6 E , /D8 VDD 2 VSS January 28, 2011 HT16x2Tx/HT12x2Tx 216/212 RF Encoder Pin Assignment


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PDF HT16C2T3/HT16E2T3/HT16G2T3 HT16C2T4/HT16E2T4/HT16G2T4 HT12C2T3/HT12E2T3 HT12C2T4/HT12E2T4 HT16x2Tx/HT12x2Tx crystal 433mhz SW-DIP "SW-DIP" SW-DIP 6 SWDIP HT12E2T4 HT16C2T3 decoder HT16C2T3 HT16C2Tx HT12
PC MOTHERBOARD CIRCUIT MANUAL

Abstract: SW-DIP RS485 cable DB-9 to DB15 SW-DIP-2 SW-DIP4 dial-up schematic modem board SW-DIP-4 rj11 to d9 cable IIDB-SMC-100 1nf 3kv
Text: /2010 10 TACK_SW SW-DIP-4 SWITCH SW-DIP-2 CO710AG-CM SP708RCN SP3238ECA 74LV244 SP3485CN , : Connect One Ltd. 2 Hanagar Street Kfar Saba 44425, Israel Tel: +972-9-766-0456 Fax: +972-9-766-0461 , Board_18 September 2004 2 II-EVB-300 User Manual 23-3460-00 Introduction This , 23-3460-00 Dip Switch Tables SW2.1 SW2. 2 SW2.3 SW2.4 ON OFF OFF ON OFF ON ON OFF , (*) iChip (*) Figure 1: iChip type select SW4.1 ON OFF OFF OFF SW4. 2 SW4.3 SW4.4 OFF ON OFF


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PDF II-EVB-300 II-EVB-300 10/100BaseT IIDB-SMC100 IIDB-SX200 PC MOTHERBOARD CIRCUIT MANUAL SW-DIP RS485 cable DB-9 to DB15 SW-DIP-2 SW-DIP4 dial-up schematic modem board SW-DIP-4 rj11 to d9 cable IIDB-SMC-100 1nf 3kv
2011 - SW-DIP2

Abstract: SW-DIP SW-DIP-2 AN1645 AN-1645 4700nF "SW-DIP"
Text: header. Set the power supply voltage between 2.3V and 5V, and the current limit at 3A. Step 2 : Connect , frequency to 600kHz. Step 4: Close pins 2 and 3 of S1 to tie the EN pin to VIN in order to enable the part. To disable the part, open pins 2 and 3 in order to pull EN to ground with R3 to disable the part , ) Pin Configuration ISL97519A (8 LD MSOP) TOP VIEW COMP 1 FB 2 EN 3 GND 4 8 SS 7 FSEL 6 VDD 5 LX , 1645 Board Design Schematic FIGURE 1. SCHEMATIC 2 AN1645.0 July 1, 2011 Application


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PDF ISL97519A ISL97519AIUZ-EVALZ ISL97519AIUZ-EVALZ, 600kHz 4700nF F/16V CDRH8D43-100NC DO-214A SW-DIP2 SW-DIP SW-DIP-2 AN1645 AN-1645 "SW-DIP"
2009 - SW-DIP-2

Abstract: SW-DIP2 GRM31CR61C226KE15L swdip2 "SW-DIP" SW-DIP CDRH8D43-100NC C1068X7R1H104K wr06w ISL97516
Text: , and current limit at 3A. 2 . Connect E-load between headers of VOUT and GND. The positive input of , R4 to set 620kHz. 4. Close pins 2 and 3 of S1 to tie EN pin to VIN to enable the part. To disable the part, open pins 2 and 3 to pull EN to ground with R3 to disable the part. · A Complete , 5 1150 3.3 9 655 FB 2 7 FSEL 3.3 12 500 EN 3 6 VDD 5 9 990 , . Application Note 1472 Board Design Schematic R4 10k S1 1 2 4 3 R5 10k 4700pF C6 1k R3


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PDF ISL97516IUZEVALZ AN1472 ISL97516IUZEVALZ, 620kHz CDRH8D43-100NC GRM31CR61C226KE15L CDRH8D43-100NC ISL97516 SW-DIP-2 SW-DIP2 swdip2 "SW-DIP" SW-DIP C1068X7R1H104K wr06w ISL97516
2009 - SW-DIP-2

Abstract: No abstract text available
Text: that allows users to select either 620kHz or 1.2MHz switching frequency. 2 . Connect E-load between , pins 1 and 4 to pull FSEL to ground with R4 to set 620kHz. 4. Close pins 2 and 3 of S1 to tie EN pin to VIN to enable the part. To disable the part, open pins 2 and 3 to pull EN to ground with R3 to , COMP 1 VIN (V) 9 500 FB 2 7 FSEL 2.5 12 380 EN 3 6 VDD 3.3 5 , . Application Note 1472 Board Design Schematic R4 10k S1 1 2 4 3 R5 10k 4700pF C6 1k R3


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PDF ISL97516IUZEVALZ ISL97516, 620kHz positRM31CR61C226KE15L CDRH8D43-100NC ISL97516 CKN3001-ND AN1472 SW-DIP-2
2002 - SW-DIP-8

Abstract: sw-dip8 MAX485CPA "SW-DIP" SW-DIP Header3X2 SWDIP-8 U4 SW-DIP-8 XR16L784 AT62B
Text: 4 3 DRV_RESET D[0.7] D7 D6 D5 D4 D3 D2 D1 D0 2 2 2 2 2 IRQ10 IRQ11 , C 1 .1_1206 C17 .1_1206 C16 .1_1206 1 C14 1 2 10_10V_TANT C15 TAB OUT 2 1 1 10_10V_TANT 2 IN 2 R3 10K C13 .1_1206 C12 1 1 2 , 1 R5 1000_1/4W R26 .1_1206 .1_1206 C26 C25 .1_1206 C23 1 2 2 TAB , +VREG B 2 4 6 +VREG 290_1% .01_1206 C22 2 1 .1_1206 C21 3 C20 TP7


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PDF IRQ10 IRQ11 IRQ12 IRQ14 IRQ15 SW-DIP-8 sw-dip8 MAX485CPA "SW-DIP" SW-DIP Header3X2 SWDIP-8 U4 SW-DIP-8 XR16L784 AT62B
SW-DIP-8

Abstract: sw-dip8 SW-DIP TP1230 U4 SW-DIP-8 XC9572XL SWDIP-8 10-35V CON51 TP14-1
Text: 4 3 DRV_RESET 1 .1_1206 C17 .1_1206 C16 2 .1_1206 C14 1 2 10_10V_TANT C15 1 TAB OUT 4 1 10_10V_TANT C13 2 1 .1_1206 C12 IN 1 1 +3.3V TP5 GND 2 R3 10K 1N914 1 2 3 GND U1 LT1086CM-3.3 +3.3V , C25 +VREG 10_10V_TANT C24 C23 1 ISA_CD_TEST 2 OUT 1K_VAR_10_TURN Component Side IN 2 290_1% .01_1206 C22 2 1 .1_1206 C21 3 1 U2 LT1086CM OPTION3


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PDF 1N914 LT1086CM-3 LT1086CM IRQ10 XC9572XL XR16L784 SW-DIP-8 sw-dip8 SW-DIP TP1230 U4 SW-DIP-8 XC9572XL SWDIP-8 10-35V CON51 TP14-1
SW-DIP-4

Abstract: SW-DIP4 SW-DIP swdip4 "SW-DIP" LDO5V PM6680A SOT R23 500R c25 mosfet
Text: 4 3 2 1 J3 LDO5V+ V+ 1 + R9 47R BOOT2 SGND C22 0R 19 18 , 8 1 3 2 1 17 4 R8 +C7 NM C9 100n C J9 1 J8 1 PGND , LDO 7 S12 2 JP2SO 1 100pF 27 J6 5 SHDN FB1 S13 2 FSEL C27 1uF , LDO_ADJ 1 PGND PGND R29 ? R32 ? SGND S1 SGND B SGND 1 2 3 R15 V+ R16 100K LIKE 4-PIN JUMPER A - S12 CLOSED B - S14 CLOSED C - S12.1 TO S14. 2 3 SKIP


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PDF 100pF PM6681 VFQFPN32 BAT54A/SOT PM6680A SW-DIP-4 SW-DIP4 SW-DIP swdip4 "SW-DIP" LDO5V SOT R23 500R c25 mosfet
c25 mosfet

Abstract: SW-DIP SW-DIP-4 LDO5V SW-DIP4 SOT R25 swdip MOSFET C25 c14 c13 SOT R23
Text: 4 3 2 1 J3 LDO5V+ V+ 1 + R9 47R BOOT2 SGND C22 0R 19 18 , 8 1 3 2 1 17 4 R8 +C7 NM C9 100n C J9 1 J8 1 PGND , LDO 7 S12 2 JP2SO 1 100pF 27 J6 5 SHDN FB1 S13 2 FSEL C27 1uF , LDO_ADJ 1 PGND PGND R29 ? R32 ? SGND S1 SGND B SGND 1 2 3 R15 V+ R16 100K LIKE 4-PIN JUMPER A - S12 CLOSED B - S14 CLOSED C - S12.1 TO S14. 2 3 SKIP


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PDF 100pF PM6681 VFQFPN32 BAT54A/SOT PM6680 c25 mosfet SW-DIP SW-DIP-4 LDO5V SW-DIP4 SOT R25 swdip MOSFET C25 c14 c13 SOT R23
2006 - SW-DIP-10

Abstract: CR2032 vcc SW-DIP10 sw dip-10 SW-DIP TXE-xxx-KH CR2032 pcb kits battery cr2032 EVAL-433-KH AN-00500
Text: advantage of the basic development boards included with the kit. The kit includes 2 KH Series transmitters*, 2 KH2 Series receivers*, 2 extra PCBmount RP-SMA connectors, 2 development boards, 2 CW Series antennas, 2 CR2032 batteries, and full documentation. *One part is soldered to the board, one extra for , 2 1. 2 . 3. 4. 5. 6. 7. 8. 9. The transmitter board is powered by an on-board 3V CR2032 , is pressed, the LED will turn on. 2 7 1 6 5 3 4 8 DEVELOPMENT USING THE


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PDF EVAL-315-KH EVAL-418-KH EVAL-433-KH 433MHz SW-DIP-10 CR2032 vcc SW-DIP10 sw dip-10 SW-DIP TXE-xxx-KH CR2032 pcb kits battery cr2032 EVAL-433-KH AN-00500
2000 - SW-DIP-2

Abstract: UPA75V SW-DIP2 balanced microphone schematic SW-DIP-4 SW-DIP4 upa75 4570 c603 transistor microphone Preamp schematic
Text: loop gain of each half of the differential input is AOL = 2.67 k RG + r e 2 At the highest , loop gain through R23 and R24. The resulting gain equation is: Gain = 2 x 4.99 k RG + RG , or Gain = 1 + 2 x 4.99 k RG Feeding the signal back in this manner eliminates the effect of re , Applications Notebook Volume 1 Design Note 109 - Sheet 1 of 2 Revision 12/5/01 Copyright © 2000 by THAT Corporation. All rights reserved. 3 2 1 P6 TP 1 J1 5 4 23 1 2 1 3 C5 100p R3


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PDF THAT120 R12-16 1N960A 1N960A 1N4004 1N4148 UPA75V 10k00 SW-DIP-2 UPA75V SW-DIP2 balanced microphone schematic SW-DIP-4 SW-DIP4 upa75 4570 c603 transistor microphone Preamp schematic
2008 - Not Available

Abstract: No abstract text available
Text: includes 2 KH2 Series transmitters*, 2 KH2 Series receivers*, 2 extra PCBmount RP-SMA connectors, 2 development boards, 2 CW Series antennas, 1 CR2032 battery, 2 AAA batteries, and full documentation. *One , of the receiver lines brought out to a header for easy access by external circuitry. 2 1. 2 . 3 , KIT KH2 RECEIVER EVALUATION BOARD 2 Using the kit is straightforward. Simply attach the , , making it easy to add most industry-standard SIP and DIP packages to the board. 1. 2 . 3. 4. 5. 6


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PDF EVAL-315-KH2 EVAL-418-KH2 EVAL-433-KH2 433MHz
2008 - Not Available

Abstract: No abstract text available
Text: + J4 1 1 OUT5V 1 3 FB1 R27 ? SGND 2 R28 ? C25 100n S9 JP3SO PGND 1K R24 330uF + C11 S5 JP2SO 2 1 2 L2 330uF + C12 SGND D2 SMA 5V C23 10pF 1 R4 NM NM PGND NM C14 R6 1 2 V5SW OUT5V R17 560K , PGND C4 15u 8 7 6 5 3 2 1 SGND SGND C18 NM 4 V+ V+ R15 100K , U1 C20 1uF 10 9 SGND CREF 100n SGND + 7 28 6 2 8 1 14


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PDF STEVAL-ISA053V1 PM6680
2008 - LDO5V

Abstract: C2310 c25 mosfet 500R PM6680A SW-DIP4 SW-DIP-4
Text: FB1 R27 ? SGND 2 R28 ? C25 100n S9 JP3SO PGND 1K R24 330uF + C11 S5 JP2SO 2 1 2 330uF + C12 SGND D2 SMA 5V C23 10pF 1 NM NM , C10 100n R19 560K M2 MOSFET-N-SO8 PGND 8 7 6 5 3 2 1 8 7 6 5 R6 1 2 , 7 28 6 2 8 1 14 12 13 11 10 9 SGND + 0R C27 1uF S10 JP4I LDO_FB SGND FB1 SGND 2 S13 S1 2 S12 S1 2 500R R7 PGND 0R


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PDF STEVAL-ISA053V2 PM6680A LDO5V C2310 c25 mosfet 500R SW-DIP4 SW-DIP-4
HDR 2x5

Abstract: SW-DIP-2 SW-DIP2 ADP1047 hdr_1x3 HDR 1x3 mma7361 3224b SPF-26136 MSS1P3L
Text: 5 4 3 2 1 Table of Contents 1 2 3 4 5 6 Revisions Rev Description , C TITLE PAGE Date: 5 4 3 2 Document Number Rev D SCH-26136 PDF: SPF-26136 Thursday, July 22, 2010 Sheet 1 1 of 6 5 4 3 2 1 NOTES: REV D: Released at , FIUO: X PUBI: _ TWR-S08MM128 Page Title: NOTES Size C Date: 5 4 3 2 Document Number Rev D SCH-26136 PDF: SPF-26136 Thursday, July 22, 2010 Sheet 1 2 of 6


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PDF MC9S08MM128-MCU 22-July-10 TWR-15 C26GND C31GND C49GND C65GND C81GND TWR-S08MM128 SCH-26136 HDR 2x5 SW-DIP-2 SW-DIP2 ADP1047 hdr_1x3 HDR 1x3 mma7361 3224b SPF-26136 MSS1P3L
2012 - EIA7343-31

Abstract: C0603C103K5RACT 5015KCT-ND m9 6pin omron sample program Panasonic MC30 SW-EVQP MC15 21tp20 597-3111-407f
Text: input & (CML or LVPECL) output signals and 2 ) for external SDI & control signals access Board Layout , 1. NB6L295MNGEVB Evaluation Board Photo Figure 2 . NB6L295MMNGEVB Evaluation Board Photo http://onsemi.com 2 NB6L295MNGEVB, NB6L295MMNGEVB D U T G N D S M A G N D D U T V C C P L D V C C DUTGND = , 2 . NB6L295, LVPECL OUTPUTS "SPLIT" POWER SUPPLY CONFIGURATIONS Power Supply Connector Color Yellow , ://onsemi.com 4 NB6L295MNGEVB, NB6L295MMNGEVB Step 2 : CML & LVPECL Output Load Termination NB6L295M - CML


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PDF NB6L295MNGEVB, NB6L295MMNGEVB NB6L295MNG/ NB6L295MMNG NB6L295M NB6L295MMNG NB6L295MNG NB6L295M/D NB6L295/D EIA7343-31 C0603C103K5RACT 5015KCT-ND m9 6pin omron sample program Panasonic MC30 SW-EVQP MC15 21tp20 597-3111-407f
2010 - SW-DIP-8

Abstract: radio control relays schematic diagram sw-dip8 USL-5HB2-10P latching relay 775 FCTN-RLY4-418 SW-DIP lm4 relay USL-5HB2 MC1413BDR2G
Text: WIRELESS MADE SIMPLE ® 4-POSITION RELAY FUNCTION MODULE 2 DATA GUIDE DESCRIPTION 3.100" The Relay Function Module 2 is a member of the Linx pre-certified OEM product line. The modules have been , Function Module 2 serves as a reliable wireless switching device at distances of up to 750 feet , FCTN-RLY4-315-2 FCTN-RLY4-418-2 FCTN-RLY4-433-2 DESCRIPTION Relay Function Module 2 - 315MHz Relay Function Module 2 - 418MHz Relay Function Module 2 - 433MHz Revised 3/18/10 ELECTRICAL


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PDF 433MHz SW-DIP-8 radio control relays schematic diagram sw-dip8 USL-5HB2-10P latching relay 775 FCTN-RLY4-418 SW-DIP lm4 relay USL-5HB2 MC1413BDR2G
2008 - SW-DIP4

Abstract: 500R PM6680 LDO5V
Text: FB1 R27 ? SGND 2 R28 ? C25 100n S9 JP3SO PGND 1K R24 330uF + C11 S5 JP2SO 2 1 2 L2 330uF + C12 SGND D2 SMA 5V C23 10pF 1 R4 NM NM PGND NM C14 R6 1 2 V5SW OUT5V R17 560K S11 JP4I R16 100K SGND , 2 1 SGND SGND C18 NM 4 V+ V+ R15 100K EXT5V J11 R14 100K 21 , SGND U1 C20 1uF 7 28 6 2 8 1 14 12 13 11 10 9 SGND +


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PDF STEVAL-ISA053V1 PM6680 SW-DIP4 500R LDO5V
2011 - SW-DIP-8

Abstract: sw-dip8 MC1413BDR2G radio control relays schematic diagram RC5 decoder 433,92 mhz AM RECEIVER, schematic diagram of Stick Welding USL-5HB2-10P FCTN-RLY4-418 AN-00300
Text: WIRELESS MADE SIMPLE ® 4-POSITION RELAY FUNCTION MODULE 2 DATA GUIDE DESCRIPTION The Relay Function Module 2 is a member of 3.100" the Linx pre-certified OEM product line. The modules have been , Function Module 2 serves as a reliable wireless switching device at distances of up to 750 feet , FCTN-RLY4-315-2 FCTN-RLY4-418-2 FCTN-RLY4-433-2 DESCRIPTION Relay Function Module 2 - 315MHz Relay Function Module 2 - 418MHz Relay Function Module 2 - 433MHz Revised 1/14/11 ELECTRICAL


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PDF 433MHz SW-DIP-8 sw-dip8 MC1413BDR2G radio control relays schematic diagram RC5 decoder 433,92 mhz AM RECEIVER, schematic diagram of Stick Welding USL-5HB2-10P FCTN-RLY4-418 AN-00300
2008 - BUZZER PCB

Abstract: AN0050 EG1218 3V CR2032 BATTERY SW-DIP-10 Q1 2N2222 CR2032 CD4069UB AN-00500 2N2222
Text: advantage of the basic development boards included with the kit. The kit includes 2 KH2 Series transmitters*, 2 KH2 Series receivers*, 2 extra PCBmount RP-SMA connectors, 2 development boards, 2 CW Series antennas, 1 CR2032 battery, 2 AAA batteries, and full documentation. *One part is soldered to the board , out to a header for easy access by external circuitry. 2 1. 2 . 3. 4. 5. 6. 7. 8. 9 , EVALUATION BOARD 2 Using the kit is straightforward. Simply attach the antennas, turn on the power, and


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PDF EVAL-315-KH2 EVAL-418-KH2 EVAL-433-KH2 433MHz BUZZER PCB AN0050 EG1218 3V CR2032 BATTERY SW-DIP-10 Q1 2N2222 CR2032 CD4069UB AN-00500 2N2222
2010 - B5k potentiometer

Abstract: B1K Potentiometer dc-dc step up schematic DIP ic for LED PT8A VHDL code for ADC and DAC SPI with FPGA FTBGA alpha Resistors slide R0603 100K LCD-S301 dc-dc driver schematic DIP ic
Text: latest documentation, demo designs and additional resources. 2 Platform Manager Development Kit , interrupting the power management operation. Figure 2 . Device Block Diagram LPTM10-12107 I2C Analog , Outputs CTimer FPGA Logic I/O: FTimer Bank 0 Utility IP Bank 1 Bank 2 FPGA Logic Bank , 2.375 1.14V [Low, High] 0,1 Margin setting 2 2.625 1.26V [Low, Low] 0,0 Margin , the Platform Manager to each of these supplies. Table 2 shows how the four LEDs in the display follow


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2000 - RF transmitter 433.92 with HT640

Abstract: HT640 433 MHZ wireless transmitter schematic RXD-418-KH 433MHz saw Based Transmitter Schematic schematic diagram tv sharp tv schematic diagram SHARP HT640 RF Encoder keyfob printed antenna KEYFOB
Text: Vdc mA µA Notes ­ 1 2 FENC Min. Typical Frequency of Carrier Harmonic Emissions , Designation Min. 314.925 ­ KHz Notes: 1. Current draw with 50% mark/space ratio. 2 . Current draw , 's output(s) are set to replicate the transmitter's button status. Page 2 SETTING THE TRANSMITTER , U1 HT-640 TOUCHPAD 1 2 3 4 5 6 7 8 9 10 11 12 S2 TOUCHPAD S3 R4 390K , GND D1 3 KH Series Receiver/Decoder Module 28 ANT D0 2 A0 27 26 25 24


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PDF 418MHz RF transmitter 433.92 with HT640 HT640 433 MHZ wireless transmitter schematic RXD-418-KH 433MHz saw Based Transmitter Schematic schematic diagram tv sharp tv schematic diagram SHARP HT640 RF Encoder keyfob printed antenna KEYFOB
2010 - B5k potentiometer

Abstract: NCP1117ST33T3G LCD-S301C31TR ONS smd diode B14 B1K Potentiometer AT25DF041 ERTJ0ET102J IRLML6402TRPBF 277-1947-ND SMD Transistor g16
Text: latest documentation, demo designs and additional resources. 2 Platform Manager Development Kit , interrupting the power management operation. Figure 2 . Device Block Diagram LPTM10-12107 I2C Analog , Outputs CTimer FPGA Logic I/O: FTimer Bank 0 Utility IP Bank 1 Bank 2 FPGA Logic Bank , 2.375 1.14V [Low, High] 0,1 Margin setting 2 2.625 1.26V [Low, Low] 0,0 Margin , the Platform Manager to each of these supplies. Table 2 shows how the four LEDs in the display follow


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SW-DIP-8

Abstract: sw-dip8 swdip-8 llo14
Text: these frequencies by 2 , giving flexibility to the user. The frequency selection on the CPU clock outputs , provided reference. 7.159 MHz - 7.159 MHz output. This output is the divided by 2 result of 14.318 MHz , , output goes low as shown on Table 2 . This pin can be used to drive the TURBO LED. It can sink 12 mA. PD1 , TURB02 0 1 0 1 TABLE 2 OUTPUT TURBO Hi-Z Hi-Z Hi-Z 0 Page 2 INTERNATIONAL MICROCIRCUITS INC. 525 , CHIP BLOCK DIAGRAM 14.318 MHz 18) MCLK2 2 3) 32 MHz 2 4) 16 MHz IMI SC405


OCR Scan
PDF IMISC405 IMISC405xPB IMISC405xXB SC405xPB IMISC405XPB SW-DIP-8 sw-dip8 swdip-8 llo14
2010 - SW-DIP-8

Abstract: sw-dip8 RF transmitter 433.92 with HT640 HT640 ENCODER HT640 diagram and operation of RF encoder HT640 RF remotecontrol schematic diagram SWDIP-8 HT658 U4 SW-DIP-8
Text: cell. 0.17" 0.62" 3.35" 1.81" Figure 1: Package Dimensions 2 OFF ON 1 ON , battery replacement. ON OFF A0 = 8 A1 = 7 A2 = 6 A3 = 5 A4 = 4 A5 = 3 A6 = 2 A7 = 1 If the switch is on, the address line is connected to ground, otherwise it is Figure 2 : DIP Switch Assignments , Assignments Page 2 Page 3 CONTENTION CONSIDERATIONS COMPLIANCE REQUIREMENTS It is important to , normal use, it will provide 1 to 2 years of operation. To replace the battery, remove the screw in the


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PDF 433MHz 92MHz, SW-DIP-8 sw-dip8 RF transmitter 433.92 with HT640 HT640 ENCODER HT640 diagram and operation of RF encoder HT640 RF remotecontrol schematic diagram SWDIP-8 HT658 U4 SW-DIP-8
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