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ULN2003LVDR Texas Instruments Low Power 3.3V & 5V Relay Driver 16-SOIC -40 to 85 visit Texas Instruments Buy
ULN2003LVPWR Texas Instruments Low Power 3.3V & 5V Relay Driver 16-TSSOP -40 to 85 visit Texas Instruments Buy
UC3702D Texas Instruments Quad PWM Relay Driver 16-SOIC 0 to 70 visit Texas Instruments
ULN2003V12PWR Texas Instruments Low Power 7 channel Relay Driver 16-TSSOP -40 to 125 visit Texas Instruments Buy
DS3680D Texas Instruments Quad Telephone Relay Drivers 14-SOIC 0 to 70 visit Texas Instruments Buy
UC3702N Texas Instruments Quad PWM Relay Driver 16-PDIP 0 to 70 visit Texas Instruments

5v relay 8 pin

Catalog Datasheet MFG & Type PDF Document Tags

5v relay 8 pin

Abstract: Drive Pin 1 Pin 8 Relay1 5V Pulse GND Relay 2, 3, 4, 5, 6, 7 N/A N/A Relay 1 GND 5V Pulse Relay 2 5V Pulse GND Relay 3, 4, 5, 6, 7 N/A N/A Relay1, 2 GND 5V Pulse Relay 3 5V Pulse GND , Close Open Close Relay 1 Electric Drive Pin 1 Pin 8 5V GND Pin 2-3 Open Status Sensor , 7 5V Pulse GND Relay 1, 2, 3, 4, 5, 6, 7 GND 5V Pulse Relay Pin 2-3 Open Status Sensor , , 2, 3, 4, 5, 7 Input â' Port 7 Input â' Port 8 Relay 7 5V GND No Power 5V GND
Laser Components
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Abstract: Input â' Port 7 Input â' Port 8 Relay 7 Electric Drive Pin 1 Pin 8 5V GND Pin 2-3 Open , Relay 4 Relay 5 Relay 6, 7 Relay1, 2, 3, 4, 5 Relay 6 Relay 7 Input â' Port 8 N/A Pin 5-6 GND GND Relay 1, 2, 3, 4 Input â' Port 7 GND 5V Pulse Pin 3-4 GND Relay 5, 6, 7 Input â' Port 6 N/A Pin 2-3 Relay 3 Relay 1, 2, 3 Input â' Port 5 5V Pulse Status Sensor Pin 8 Relay1, 2 Relay 4, 5, 6, 7 Input â' Port 4 Electric Drive Laser Components
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40 watt telephone ring generator circuit

Abstract: MH88612 RF2 7 IC 8 VEE Negative Power Supply Voltage. Normally -5V. 9 LED LED Drive , Supply voltage. Normally +5V. Connects to the relay coil and the relay supply voltage. An internal clamp , Notes: R1= 200, 1/4W, 5% K1= Relay E/M 5V, 1Form C C1, C2 = 0.1uF, 50V, Ceramic +5V -5V C1 , FEED 2 HYBRID CLAMP DIODE +5V VRLY RELAY COIL RRD RELAY DRIVE CIRCUIT RRC RGND Figure 7 - Relay Drive Circuit 2-70 MH88520-1 Preliminary Information +7v +5V CONTROL
Mitel Semiconductor
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40 watt telephone ring generator circuit MH88612 telephone ring led indicator 40 watt telephone ring generator 24VDC relay drive current ic relay 24v 90VAC MD74SC137 MT8812

40 watt telephone ring generator

Abstract: 40 watt telephone ring generator circuit RRC VRLY 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Figure 2 - Pin , 5 IC 6 RF2 7 IC 8 VEE Negative Power Supply Voltage. Normally -5V. 9 , VRLY Relay Positive Supply voltage. Normally +5V. Connects to the relay coil and the relay supply , Notes: R1= 200, 1/4W, 5% K1= Relay E/M 5V, 1Form C C1, C2 = 0.1uF, 50V, Ceramic +5V -5V C1 , FEED 2 +5V HYBRID CLAMP DIODE VRLY RELAY COIL RRD RELAY DRIVE CIRCUIT RRC RGND
Mitel Semiconductor
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24V decoder IC d7215 220R MH88524

relay 5v 5 pin

Abstract: Relay Status Sensor Pin 1 Pin 8 Pin 2-3 Pin 3-4 Pin 5-6 Pin 6-7 Relay1 Relay 2, 3 Relay1 Relay 2 Relay 3 Relay1, 2 Relay 3 5V Pulse N/A GND 5V Pulse N/A GND 5V Pulse , 3 Relay 1, 2 Input â' Port 4 5V Relay1, 2, 3 Pin 2-3 Close Open Close Open No , Relay1, 2, 3 GND 5V Pulse Close Open Open Close Status Sensor Pin 3-4 Pin 7-8 , Type Optical Path Input â' Port 1 Input â' Port 2 Electrical Drive Pin 1 Pin 10 5V GND No
Laser Components
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relay 5v 5 pin
Abstract: ' Port 1 Input â' Port 2 Input â' Port 3 Input â' Port 4 Electrical Drive Relay Relay1 Relay 2, 3 Relay1 Relay 2 Relay 3 Relay1, 2 Relay 3 Relay1, 2, 3 Status Sensor Pin 1 Pin 8 Pin 2-3 Pin 3-4 Pin 5-6 Pin 6-7 5V Pulse N/A GND 5V Pulse N/A GND 5V Pulse , Input â' Port 2 Electrical Drive Pin 1 Pin 10 5V GND No Power 5V GND No Power Relay , 8.0 8.0 8.0 ° Optical Path 0.2 ± 0.4 x 0.2 Pin 8 3.2 R ela y 3 Pin 1 R Laser Components
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cs 2648

Abstract: CdS PHOTO resistor drive triac or output level (PT8A2642/6/8) to drive relay. CDS to enable/disable output. 40 second , 7 8 16 15 14 13 12 11 10 9 OP2O OP2N OP2P OP1O OP1N OP1P RSTB VEE GND RELAY , 103 in order to guarantee not too bad linearity. RELAY (TRIAC): an output pin set as a RELAY driving , edge to Relay TDZR Test condition VCC =5V, RS=430K ,CS=180P (PT8A264X) Power Dissipation , 1N4007 SW2 8 MODE 68/2W D2 24V R7 2.4M D4 1N4148 R12 OP2O RELAY OP2N OSCD
Pericom Technology
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cs 2648 CdS PHOTO resistor normal relay for controlling 230v ac by using 5v PIR D 203 S PT8A2648 PIR 203 S PT8A2641-2642/2645-2648 PT8A2641/5/7 PT8A2642/6/8 PT0192

HT7612

Abstract: st BUZ same pin. Active high - a RELAY is driven through an external NPN transistor. BUZ/CDS I/O , 5V VOL=0.5V 10 20 ¾ mA IOH3 RELAY/LED Source Current 5V VOH=4.5V -5 -10 ¾ mA IOL3 VOL=0.5V ¾ mA RELAY/LED Sink Current 5V VIH MODE High , after power-on. B U Z /C D S Fig.2 Buzzer Pin Drive Buzzer The RELAY pin is a CMOS output , oscillator and the MODE pin. The RELAY pin structure is shown in Fig.3. SC The SC pin is an output pin
Holtek
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HT7612 st BUZ HT7939 16 PIN PIR SENSOR IC PIR Circuit 5 pins relay pin diagram

relay 5v 5 pin

Abstract: 5v dc relay connection Description Pin # 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Name TIP RING XLA XLB XLC XLD IC GRD IC IC RGND VRLY , Connection. No connection should be made to this pin. Ground Ring Lead Relay Drive (Output). Connects to the , made to this pin. Internal Connection. No connection should be made to this pin. Relay Ground. Return path for relay supply voltage. Relay Positive Supply Voltage. Normally +5V. Connects to all relay coils , GTX0 +5V K1 K2 K3 12 11 15 LRC 16 Bias Relay Control 17 Ground Relay Control K1A 3 4 K1B GRC XLA XLB TG
Zarlink Semiconductor
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5v dc relay connection MH88632B DS5574

K 2642 transistor

Abstract: CdS PHOTO resistor triac or output level (PT8A2642/6/8) to drive relay. CDS to enable/disable output. 40 second warm-up , | | Pin Configuration GND TRIAC OSCD OSCS ZC CDS MODE Vcc 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 OP2O OP2N OP2P OP1O OP1N OP1P RSTB VEE GND RELAY OSCD OSCS ZC CDS MODE Vcc 1 2 3 4 5 6 7 8 16 , OP1O OP1N OP1P CDSO VEE GND RELAY OSCD OSCS ZC CDS MODE Vcc 1 2 3 4 5 6 7 8 16 15 14 13 12 11 , COMPO VEE GND RELAY OSCD OSCS ZC CDS MODE Vcc 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 OP2O
Pericom Semiconductor
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PT8A2642WE K 2642 transistor 2642W PT8A264 PT8A2641PE PT8A2641WE PT8A2642PE PT8A2645PE PT8A2645WE
Abstract: Pin Connections Pin Description Pin i Name 1 2 3 4 5 6 7 8 9 TIP IC RING RF1 IC , TIP-RING to the JUNC pin. JUNCTOR. Ground (AGND) referenced transmit and receive speech path. Ring Relay , activates the Ring Relay Drive (RRD) output. Relay Positive Supply Voltage. Normally +5V. Connects to the , /4W, 5% K1 = Relay E/M 5V, 1 Form C C l, C2 = O.IpF, 50V, Ceramic ¿ 1 % . T o +5V V e , 5V, VEE = -5V, VBAT = -24V Characteristics 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 -
OCR Scan
MH8S520-1 24T37G 00CH474 D74SC137

OMRON latching relay driver

Abstract: takamisawa relay 19-2751; Rev 1; 4/09 +3.3V/+5V, 8-Channel, Cascadable Relay Drivers with Serial/Parallel , General Description MAX4820/MAX4821 +3.3V/+5V, 8-Channel, Cascadable Relay Drivers with Serial , ) V +1 µA 1.5 V 3.3V/+5V, 8-Channel, Cascadable Relay Drivers with Serial , ) OUTPUT OFF-LEAKAGE (nA) MAX4820/MAX4821 +3.3V/+5V, 8-Channel, Cascadable Relay Drivers with Serial , ) 4.7 5.1 5.5 3.3V/+5V, 8-Channel, Cascadable Relay Drivers with Serial/Parallel
Maxim Integrated Products
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MAX4820 OMRON latching relay driver takamisawa relay takamisawa RELAYS FUJITSU TAKAMISAWA VS TAKAMISAWA VS takamisawa relay 12 MAX4821 T2044-3 U20E-1
Abstract: VCC GTX1 GTX0 R3 K3 +5V K1 K2 K3 13 14 8 12 11 15 16 17 Ground Relay Control K1A 3 4 K1B LRD BRD , connection should be made to this pin. Ground Ring Lead Relay Drive (Output). Connects to the Ground Ring , this pin. Internal Connection. No connection should be made to this pin. Relay Ground. Return path for , V mA V mA V LRC = 0V LRC = 5V LRC = 0V LRC = 5V 8 9 Electrical Characteristics are over , and gains Three relay drivers Line state detection outputs 15 mA operation allowing long line length Zarlink Semiconductor
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MH88632B1

VI800A

Abstract: demonstration code uses two FTDI USB-UART (TTL) cables to supply 5V to the relay contacts as these cables are , switch 5V into the Input pins depending on which relay is energised. This allows a simple demonstration , : FT_VI800A_RELAY RELAY; Pin configuration : // Arduino SPI pins const char Daughter1_SS = 7; const char , #418 7. When the OUT1 LED is on, Relay 1 is on, switching 5V to its Normally Open contact which connects to IN2+ Relay 2 is off, switching 5V to its Normally Closed contact which connects to IN3+ Relay 3
FTDI
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VI800A-RELAY VM800P
Abstract: (TRIAC): an output pin set as a RELAY driving (active high) output for the PT8A2642/6/8, or as a TRIAC , . seconds ï'· Output pulse (PT8A2641/5/7) to drive triac or output level (PT8A2642/6/8) to drive relay , | | Pin Configuration GND TRIAC OSCD OSCS ZC CDS MODE Vcc 1 2 3 4 5 6 7 8 16 15 , SW2 MODE 6 8/2 W D2 2 4V R7 2 .4 M D4 1 N41 4 8 R1 2 OP2O RELAY OP2N OSCD , | | PIR Sensor Light Switch Product Features Product Description ï'· Operating voltage: 5V (Typ Pericom Semiconductor
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PT8A2646PE PT8A2646WE PT8A2647PE PT8A2647WE PT8A2648PE PT8A2648WE

MD74SC137

Abstract: MH88500 - Relay Drive Circuit 2-39 MH88500 Preliminary Information +7v +5V CONTROL -24VDC , 19 3 RING 16 ADDRESS OUT 9 20 17 4 15 10 MD74SC137 1 OF 8 DECODER +5V 8 6 14 7 -8V -24V 0V +5V +7V +5V 5 MORE SLICS -24VDC 90VAC -24VDC 00 , 10 2 8 16 -8V MD74SC137 1 OF 8 DECODER +7V 6 14 -24V +5V RING 7 , · Relay drive output · Battery and ringing feed to line · Logic interface: MUTE, OFHK
Mitel Semiconductor
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pin diagram of 2 to 4 decoder

LRD 33 OVERLOAD RELAY

Abstract: MH88632B the relay is energized. 7 IC 8 GRD 9 IC Internal Connection. No connection , Supply Voltage. Normally +5V. Connects to all relay coils and the relay supply voltage. 13 LRD , to this pin. Ground Ring Lead Relay Drive (Output). Connects to the Ground Ring Lead Relay coil (K3 , Ring Protection Circuit 2 VCC TIP 28 GTX0 TX +5V K1 K2 13 14 8 K3 , mA LRC = 0V LRC = 5V TG and RG Detect Threshold -12 -14 V 8 9 275
Zarlink Semiconductor
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LRD 33 OVERLOAD RELAY MT8966 MT8967

DS18B20 SENSOR

Abstract: DLP-IO20-G Latching Relays, Digital I/O Two Relay Driver Outputs (5V Coil) Digital Temperature Sensor Feature , outputs connect to one side of a 5V relay coil, the side of the coil is connected to the +5V terminal , C1 S1 GND P7 P6 P5 +5V AN7 AN6 AN5 AN4 RA4 Description Latching Relay 1 Reset , 3) Ground Relay Driver Output P7. Driven by Darlington pair transistors powered by 5V from the USB port. (see note 4) Relay Driver Output P6. Driven by Darlington pair transistors powered by 5V
DLP Design
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DLP-IO20-G DLP-IO20 DS18B20 SENSOR 0x39 DS18B20 application note 110VDC LED Driver microcontroller relay interfacing 20-CHANNEL

MH88632B

Abstract: MT8966 the relay is energized. 7 IC 8 GRD 9 IC Internal Connection. No connection , Supply Voltage. Normally +5V. Connects to all relay coils and the relay supply voltage. 13 LRD , to this pin. Ground Ring Lead Relay Drive (Output). Connects to the Ground Ring Lead Relay coil (K3 , Ring Protection Circuit 2 VCC TIP 28 GTX0 TX +5V K1 K2 13 14 8 K3 , mA LRC = 0V LRC = 5V TG and RG Detect Threshold -12 -14 V 8 9 275
Zarlink Semiconductor
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LED PIR controller 16-pin

Abstract: "Piezo Buzzer" 5v 1 November 12, 2009 HT7612 Pin Assignment O P 1 P 1 2 3 4 5 6 7 8 9 O P 1 N O P 1 O O P 2 N , CDS. Negative power supply, ground Positive power supply RELAY and LED share the same pin. Active high - a RELAY is driven through an external NPN transistor. BUZ and CDS share the same pin. The BUZ , is shown as Fig.1. V R E F RELAY B U Z /L V D B U Z /C D S Fig.2 Buzzer Pin Drive Buzzer The RELAY pin is a CMOS output structure which is normally low and active high. The high duration is
Holtek
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LED PIR controller 16-pin motion sensor light override switch diagram HT7150-1 ac 220V Automatic Voltage Regulator PIR sensor 394
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