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Q4008L4 pin configuration

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Q4008L4 pin configuration

Abstract: ysi44008 1N4004 TECCOR Q4008L4 OR EQUIVALENT NEUTRAL C1 0.01µF R2 47k 3k 3W ISOLATION , 100k 1M FREQUENCY (Hz) 100M 1531 F04 Figure 4. VRMS vs Frequency U U U PIN FUNCTIONS VCC (Pin 1): Powered Side Power Supply. SHDN (Pin 2): Active Low Chip Shutdown. A low signal , . ZCNEG (Pin 3): Zero-Cross Comparator Negative Input. ZCPOS (Pin 4): Zero-Cross Comparator Positive Input. VPW (Pin 11): Isolated Power Supply. Connect to an external storage capacitor. CMPOUT (Pin 12
Linear Technology
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Q4008L4 pin configuration ysi44008 TRIAC Q4008L4 LTC1496 ysi 44008 2 Amp Zero-Cross Triac Output LTC1531 E151738 UL1577 2500VRMS LT1496 1N4148

Q4008L4

Abstract: ysi44008 the three-state CMPOUT pin in a delta-sigma configuration. Here, the time constant of R1C1 is , 1N4004 TECCOR Q4008L4 OR EQUIVALENT NEUTRAL C1 0.01F R2 47k 3k 3W ISOLATION BARRIER , 10M 100k 1M FREQUENCY (Hz) 100M 1531 F04 Figure 4. VRMS vs Frequency U U U PIN FUNCTIONS VCC (Pin 1): Powered Side Power Supply. SHDN (Pin 2): Active Low Chip Shutdown. A low signal , . ZCNEG (Pin 3): Zero-Cross Comparator Negative Input. ZCPOS (Pin 4): Zero-Cross Comparator Positive
Linear Technology
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remote control light circuit diagram 1n4148 v4 triac 1f 2N2222 LTC1531CSW YSI44 LTC1177 LT1389 LTC1440/LTC1441 LTC1442 LT1495/LT1496 375VMAX

Q4008L4

Abstract: ysi44008 1N4004 TECCOR Q4008L4 OR EQUIVALENT NEUTRAL C1 0.01µF R2 47k 3k 3W ISOLATION , Frequency U U U PIN FUNCTIONS VCC (Pin 1): Powered Side Power Supply. SHDN (Pin 2): Active Low , to zero during power-down. ZCNEG (Pin 3): Zero-Cross Comparator Negative Input. ZCPOS (Pin 4): Zero-Cross Comparator Positive Input. VPW (Pin 11): Isolated Power Supply. Connect to an external storage capacitor. CMPOUT (Pin 12): Isolated Latched Comparator Data. CMPOUT is active when VREG is on. The CMPOUT
Linear Technology
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thermistor op amp temperature controller circuit 1M resistor LTC1540

AC Motor Speed Controller

Abstract: Q4008L4 voltage â'¢ 8 Pin Plastic DIP DESCRIPTION: LS 7231 through LS 7234 is a series of monolithic, ion , memory. CONNECTION DIAGRAM - TOP VIEW STANDARD 8 PIN PLASTIC DIP VSS ( +12 to +18VDC) DOZE 2 CAP , DESCRIPTION VSS (Pin 1) Supply voltage positive terminal. DOZE (Pin 2) A clock applied to this input causes , active, the DOZE input is disabled. CAP (Pin 3) The CAP input is for external component connection for , frequency. For 50Hz the figures are 39ms and 399ms. SYNCHRO (Pin 4). The a-c line frequency (50Hz/60Hz
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OCR Scan
AC Motor Speed Controller triac 220v light dimmer cd 7231 LS7231 220v light dimmer touch dimmer 220v control LS7231-4 F/25V F/300VAC 0-VF/300VAC
Abstract: slow dimming â'¢ 12V to 18V DC supply voltage â'¢ 8 Pin Plastic DIP CONNECTION DIAGRAM - TOP VIEW STANDARD 8 PIN P LA ST IC DIP OUT V D D (G N D ) SLAVE 5 DESCRIPTION: â'˜ Some motors may , /OUTPUT DESCRIPTION VSS (Pin 1) Supply voltage positive terminal. DOZE (Pin 2) A clock applied to , input is disabled. (a) turned off it it was on. CAP (Pin 3) ( b ) turned on if it was off. The , . SYNCHRO (Pin 4). SLAVE (Pin 6) The a-c line frequency (50Hz/60Hz), when applied to this input -
OCR Scan
F/150VAC

ysi+44008

Abstract: (Figure 9) uses the three-state CMPOUT pin in a delta-sigma configuration. Here, the time constant of , Temperature Controller AC 120V LOAD 25Ω R1 680k 1N4004 TECCOR Q4008L4 OR EQUIVALENT , Figure 4. VRMS vs Frequency U U U PIN FUNCTIONS VCC (Pin 1): Powered Side Power Supply. SHDN (Pin 2): Active Low Chip Shutdown. A low signal causes the circuitry to power down. DATA logic output level will be reset to zero during power-down. ZCNEG (Pin 3): Zero-Cross Comparator Negative
Linear Technology
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ysi+44008

RE200B

Abstract: Sensor Pir RE200B 0.75VREG < VIN 30 36 Seconds PIN ASSIGNMENT - TOP VIEW DIFF. AMP. 1 OUTPUT 1 DIFF. AMP , LS6506 FIGURE 1A PIN ASSIGNMENT - TOP VIEW DIFF. AMP. 1 OUTPUT 1 DIFF. AMP. 2 INPUT (- , configuration REGULATOR: Voltage Current VR IR 4.0 - 100 6 150 V µA - G CMRR , Amplifier Bandpass configuration as shown in Figure 2 - 0 - 2.0 V - VIR - 0.3VR , value of R6 may have to be adjusted if the selected PIR Sensor causes the input static voltage at Pin
LSI Computer Systems
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RE200B Sensor Pir RE200B LHi 878 LHi 878 application RE200B datasheet LHi 958 A3800 LS6507 115VAC 220VAC LS6506-S LS6507-S

PIR Sensor Interface

Abstract: LS6505 11747 (631) 271-0400 FAX (631) 271-0405 A3800 September 2006 PIR SENSOR INTERFACE PIN , dB µA - VS 100 - - µV TA = 25˚C, with Amplifier Bandpass configuration as , = 0.1µF Z1 = 24V, 1/2W C6 = 1.5µF, 250V T1 = Q4008L4 (Typical) C6 = 1.0µF, 400V * T1 = , 2.7V Peak-to-Peak AC signal input to Pin 5. 2. The C7, D1, Z1, C6, R6 components generate the DC , module into Pin 11 of the LS6505 and C suppresses noise. LSI Computer Systems
LSI Computer Systems
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PIR Sensor Interface pir sensor Triac/pir module RE46B-SW81 Q5004L4 LM78L05 MPS8099 LS6505-11

Heimann lhi 878

Abstract: Heimann lhi 958 Automatic Light Control · Intrusion Alarm PIN ASSIGNMENT - TOP VIEW LSI FEATURES: · Low Quiescent , - µV TA=25°C, with Amplifier Bandpass configuration as shown in Figure 3 - 0 - , Q4008L4 (Typical) * T1 = Q5004L4 (Typical) PIR = HEIMANN LHi 954, 958, 978, 874 or 878 (Typical , signal input to Pin 5. 2. The C8, D1, Z1, C7, R7 components generate the DC Supply Voltage for the , components interface LS6501LP Pin 7 to a Relay Coil returned to a separate High-Voltage DC Supply. 3. A
LSI Computer Systems
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Heimann lhi 878 Heimann lhi 958 LHi 954 LHi 954 heimann LHi 978 LHi 874 6501LP-040900-1

Heimann lhi 878

Abstract: Heimann lhi 958 (516) 271-0400 FAX (516) 271-0405 ® A3800 January 1998 PIR MOTION DETECTOR PIN , can drive Incandescent or Fluorescent Lamps · 16-Pin DIP or 16-Pin SOIC (See Figure 1) FIGURE 1 , - µV TA=25°C, with Amplifier Bandpass configuration as shown in Figure 3 - 0 - , * C9 = .1µF,400V D1 = 1N4004 LDR = SILONEX HSL-19M52 (Typica Z1 = 9.1V, 1/2W T1 = Q4008L4 (Typical , Pin 5. 2. The C8, D1, Z1, C7, R7 components generate the DC Supply Voltage for the LS6501LP. 3. The
LSI Computer Systems
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pir motion sensor LHi 958 LHi 958 application note trigger coil heimann LHi 874 application note Heimann lhi 874 ldr sensor

Heimann lhi 878

Abstract: LHi 958 (631) 271-0400 FAX (631) 271-0405 A3800 PIR SENSOR INTERFACE PIN ASSIGNMENT - TOP VIEW DIFF , configuration as shown in Figure 3 - 0 - 2.5 V - VIR - 0.4VR - V - , C5 = 0.1µF Z1 = 24V, 1/2W C6 = 1.5µF, 250V T1 = Q4008L4 (Typical) C6 = 1.0µF, 400V * T1 = , Peak-to-Peak AC signal input to Pin 5. 2. The C7, D1, Z1, C6, R6 components generate the DC Supply Voltage for , network to the occupancy sensor module. R limits the current from the remote module into Pin 11 of the
LSI Computer Systems
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Heimann PIR SENSOR IS MOTION SENSOR 24v pir motion sensor PIR-SENSOR pir module LHi 878 Heimann

Heimann lhi 958

Abstract: Heimann lhi 878 (631) 271-0400 FAX (631) 271-0405 A3800 PIR SENSOR INTERFACE PIN ASSIGNMENT - TOP VIEW DIFF , configuration as shown in Figure 3 - 0 - 2.5 V - VIR - 0.4VR - V - , C5 = 0.1µF Z1 = 24V, 1/2W C6 = 1.5µF, 250V T1 = Q4008L4 (Typical) C6 = 1.0µF, 400V * T1 = , Peak-to-Peak AC signal input to Pin 5. 2. The C7, D1, Z1, C6, R6 components generate the DC Supply Voltage for , network to the occupancy sensor module. R limits the current from the remote module into Pin 11 of the
LSI Computer Systems
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heimann lhi lhi 878 heimann circuit diagram lhi958 heimann PIR sensor LS6505-S triac delay timer

Heimann LHi 978

Abstract: Heimann lhi 958 '¢ Automatic Light Control â'¢ Intrusion Alarm PIN ASSIGNMENT - TOP VIEW LSI FEATURES: â'¢ Low , '¢ Triac can drive Incandescent or Fluorescent Lamps â'¢ 16-Pin DIP or 16-Pin SOIC (See Figure 1) LED , dB dB dB µA - VS 70 - - µV TA=25˚C, with Amplifier Bandpass configuration , ,250V * C9 = .1µF,400V D1 = 1N4004 LDR = SILONEX HSL-19M52 (Typical) Z1 = 9.1V, 1/2W T1 = Q4008L4 , input to Pin 5. 2. The C8, D1, Z1, C7, R7 components generate the DC Supply Voltage for the LS6501LP
LSI Computer Systems
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Heimann LHi 978 PIR LHi 978

Heimann lhi 958

Abstract: 11747 (631) 271-0400 FAX (631) 271-0405 A3800 PIR SENSOR INTERFACE PIN ASSIGNMENT - TOP VIEW , Amplifier Bandpass configuration as shown in Figure 3 - 0 - 2.5 V - VIR - 0.4VR , 1.5µF, 250V T1 = Q4008L4 (Typical) C6 = 1.0µF, 400V * T1 = Q5004L4 (Typical) C7 = 1000µF U1 = , change for 220VAC NOTES: 1. The R8, R9, C8 network provides a 2.7V Peak-to-Peak AC signal input to Pin , occupancy sensor module. R limits the current from the remote module into Pin 11 of the LS6505 and C
LSI Computer Systems
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RE46B-SW81

Abstract: 11747 (631) 271-0400 FAX (631) 271-0405 A3800 September 2006 PIR SENSOR INTERFACE PIN , dB µA - VS 100 - - µV TA = 25˚C, with Amplifier Bandpass configuration as , 0.033µF C4 = 0.01µF D1 = 1N4004 C5 = 0.1µF Z1 = 24V, 1/2W C6 = 1.5µF, 250V T1 = Q4008L4 (Typical , R8, R9, C8 network provides a 2.7V Peak-to-Peak AC signal input to Pin 5. 2. The C7, D1, Z1, C6, R6 , the occupancy sensor module. R limits the current from the remote module into Pin 11 of the LS6505
LSI Computer Systems
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sensor LDR 1

Abstract: LDR light sensor positive and negative inputs for Stage 1 and Pin 1 is the output. The two inputs allow for single-ended or differential connection to PIR Sensors. Pin 2 is the negative input for Stage 2. The output of , . LR1 / LR2 OUTPUT (LS6506R, Pin 6 / Pin7) For the LS6506R, a 16.66ms negative going pulse appears on , are used to generate the input which is then ACcoupled into the chip through C9. AC INPUT (Pin 5 , for all timing in the LS6506R and LS6507R. 6506R-042908-2 ON/OFF INPUT (Pin 12) The On/Off
LSI Computer Systems
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sensor LDR 1 LDR light sensor LS6506R-S LS6507R-S 6506R CD4049UB/CD4050B 6506R-012608-10 MPSA42

PIR Sensor Interface

Abstract: LS6506R LS6507R amplification and bandwidth. Pins 15 and 16 make up the positive and negative inputs for Stage 1 and Pin 1 is the output. The two inputs allow for single-ended or differential connection to PIR Sensors. Pin 2 , output of the window comparator. Refer to Figure 4. LR1 / LR2 OUTPUT (LS6506R, Pin 6 / Pin7) For the , into the chip through C9. AC INPUT (Pin 5) This input is derived from the AC hot line input. For the , ON/OFF INPUT (Pin 12) The On/Off input is a momentary input used to turn the latching relay on or
LSI Computer Systems
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LS6506R LS6507R 6506R-060209-9 120VRMS 277VRMS 6506R-042308-11 6506R-060209-12
Abstract: . Pins 15 and 16 make up the positive and negative inputs for Stage 1 and Pin 1 is the output. The two inputs allow for single-ended or differential connection to PIR Sensors. Pin 2 is the negative input , comparator. Refer to Figure 4. LR1 / LR2 OUTPUT (LS6506R, Pin 6 / Pin7) For the LS6506R, a 16.66ms , chip through C9. AC INPUT (Pin 5) This input is derived from the AC hot line input. For the LS6506R , /OFF INPUT (Pin 12) The On/Off input is a momentary input used to turn the latching relay on or off LSI Computer Systems
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SDA02-54

Abstract: positive and negative inputs for Stage 1 and Pin 1 is the output. The two inputs allow for single-ended or differential connection to PIR Sensors. Pin 2 is the negative input for Stage 2. The output of , . LR1 / LR2 OUTPUT (LS6506R, Pin 6 / Pin7) For the LS6506R, a 16.66ms negative going pulse appears on , are used to generate the input which is then ACcoupled into the chip through C9. AC INPUT (Pin 5 , for all timing in the LS6506R and LS6507R. 6506R-042908-2 ON/OFF INPUT (Pin 12) The On/Off
LSI Computer Systems
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SDA02-54

SDA02-54

Abstract: RE200B PIN ASSIGNMENT - TOP VIEW LSI FEATURES: · Low Quiescent Current · Direct Interface with PIR , dB dB dB µA - VS 70 - - µV TA = 25°C, with Amplifier Bandpass configuration , = 9.1V, 1/2W T1 = Q4008L4 (Typical) T1 = Q5004L4 (Typical) PIRs = Perkin-Elmer LHi 958, 878 , signal input to Pin 5. 2. The C8, D1, Z1, C7, R7 components generate the DC Supply Voltage for the , have to be adjusted if the particular PIR sensor selected causes the input static voltage at Pin 15 to
LSI Computer Systems
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RE200B nicera RE200B sensor SDA02 54 re200b amplifier RE-200B 6501LP-090806-1 6501LP-090806-7 6501LP-012703-8
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