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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LT1193CS8 Linear Technology LT1193 - Video Difference Amplifier; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1193CS8#TR Linear Technology LT1193 - Video Difference Amplifier; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1193IS8 Linear Technology LT1193 - Video Difference Amplifier; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1193CS8#PBF Linear Technology LT1193 - Video Difference Amplifier; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1193IS8#TR Linear Technology LT1193 - Video Difference Amplifier; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1193CS8#TRPBF Linear Technology LT1193 - Video Difference Amplifier; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C

difference between mq5 and mq6 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
MQ 6 gas sensor AND PIN CONFIGURATION

Abstract: lpg gas detector MQ 6 gas sensor LPG GAS SENSOR MQ 6 SENSOR LPG GAS SENSOR MQ6 LPG GAS SENSOR mq 6 pin configuration of MQ 6 smoke sensor alarm MQ 6 gas sensor PIN CONFIGURATION lpg leakage detector
Text: ADJUSTMENT Resistance value of MQ-6 is difference to various kinds and various concentration gases. So, When , Email:sensor@371.net HANWEI ELETRONICS CO.,LTD MQ-6 http://www.hwsensor.com Structure and , sensitive components. The enveloped MQ-6 have 6 pin ,4 of them are used to fetch signals, and other 2 are , . Fig.4 is shows the typical dependence of the MQ-6 on temperature and humidity. Ro: sensor , HANWEI ELETRONICS CO.,LTD MQ-6 http://www.hwsensor.com TECHNICAL DATA MQ-6 GAS


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PDF 1000ppm MQ 6 gas sensor AND PIN CONFIGURATION lpg gas detector MQ 6 gas sensor LPG GAS SENSOR MQ 6 SENSOR LPG GAS SENSOR MQ6 LPG GAS SENSOR mq 6 pin configuration of MQ 6 smoke sensor alarm MQ 6 gas sensor PIN CONFIGURATION lpg leakage detector
MQ 6 gas sensor AND PIN CONFIGURATION

Abstract: mq5 sensor MQ 2 gas sensor AND PIN CONFIGURATION MQ 5 Smoke sensor MQ 5 gas sensor AND PIN CONFIGURATION MQ 06 SENSOR "GAS SENSOR" MQ 5 LPG GAS SENSOR MQ 6 gas sensor PIN CONFIGURATION gas detector
Text: . 1 Configuration A Configuration B A A Structure and configuration of MQ-5 gas sensor , sensitive components. The enveloped MQ-5 have 6 pin ,4 of them are used to fetch signals, and other 2 are , %RH Fig.4 is shows the typical dependence of the MQ-5 on temperature and humidity. Ro: sensor resistance , humidities. Rs/Ro 30 40 50 SENSITVITY ADJUSTMENT Resistance value of MQ-5 is difference to , HANWEI ELECTRONICS CO.,LTD MQ-5 http://www.hwsensor.com TECHNICAL DATA MQ-5 GAS


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PDF 1000ppm MQ 6 gas sensor AND PIN CONFIGURATION mq5 sensor MQ 2 gas sensor AND PIN CONFIGURATION MQ 5 Smoke sensor MQ 5 gas sensor AND PIN CONFIGURATION MQ 06 SENSOR "GAS SENSOR" MQ 5 LPG GAS SENSOR MQ 6 gas sensor PIN CONFIGURATION gas detector
LPG GAS SENSOR

Abstract: MQ 6 gas sensor AND PIN CONFIGURATION mq5 sensor lpg gas detector MQ 2 gas sensor AND PIN CONFIGURATION LPG GAS SENSOR data sheet MQ 6 gas sensor MQ 5 gas sensor AND PIN CONFIGURATION MQ 6 SENSOR MQ 5 Smoke sensor
Text: and configuration of MQ-5 gas sensor is shown as Fig. 1 (Configuration A or B), sensor composed by , .4 is shows the typical dependence of the MQ-5 on temperature and humidity. Fig.4 1.5 1.4 1.3 , at different temperatures and humidities. 50 SENSITVITY ADJUSTMENT Resistance value of MQ-5 is difference to various kinds and various concentration gases. So, When using this components , HANWEI ELECTRONICS CO.,LTD TECHNICAL MQ-5 http://www.hwsensor.com DATA MQ-5 GAS


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PDF 800mw 1000ppm LPG GAS SENSOR MQ 6 gas sensor AND PIN CONFIGURATION mq5 sensor lpg gas detector MQ 2 gas sensor AND PIN CONFIGURATION LPG GAS SENSOR data sheet MQ 6 gas sensor MQ 5 gas sensor AND PIN CONFIGURATION MQ 6 SENSOR MQ 5 Smoke sensor
MQ 6 gas sensor AND PIN CONFIGURATION

Abstract: LPG GAS SENSOR mq5 sensor lpg gas detector MQ 5 gas sensor AND PIN CONFIGURATION MQ 2 gas sensor AND PIN CONFIGURATION Gas Detector lpg leakage detector MQ 6 gas leakage alarm MQ 6 gas sensor
Text: different temperatures and humidities. SENSITVITY ADJUSTMENT Resistance value of MQ-5 is difference , . Fig.4 is shows the typical dependence of the MQ-5 on temperature and humidity. Fig , HANWEI ELECTRONICS CO.,LTD MQ-5 http://www.hwsensor.com TECHNICAL DATA MQ-5 GAS , , smoke. * Fast response . * Stable and long life * Simple drive circuit APPLICATION They are used in gas leakage detecting equipments in family and industry, are suitable for detecting of LPG, natural


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PDF 1000ppm MQ 6 gas sensor AND PIN CONFIGURATION LPG GAS SENSOR mq5 sensor lpg gas detector MQ 5 gas sensor AND PIN CONFIGURATION MQ 2 gas sensor AND PIN CONFIGURATION Gas Detector lpg leakage detector MQ 6 gas leakage alarm MQ 6 gas sensor
difference between mq5 and mq6

Abstract: AL128 Application Notes vga to tv converter ic AL128 MQ9 connector RGB565 to rgb888 RGB signal converting to vga AL128 composite to vga composite to vga converter ic RGB888 to vga converter ic
Text: RED5 RED6 RED7 VDD MQ0 MQ1 MQ2 MQ3 GND MQ4 MQ5 MQ6 MQ7 VDD MD0 MD1 MD2 MD3 GND MD4 , is signed, and its value is between ­128 and 127. Please refer to Section 8.3, AL128 Plug & Play , value of GinVStartDlt is signed, and its value is between ­128 and 127. Please refer Section 8.3, AL128 , . Used with Reg 0x22 The relationship between registers #24h, #25h and #26h is that Reg. #25h<6:0 , The value of GinHStZoomDlt is signed, and its range is between ­64 and 63. Please refer to Section


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PDF AL128 AL128 24-bit difference between mq5 and mq6 AL128 Application Notes vga to tv converter ic MQ9 connector RGB565 to rgb888 RGB signal converting to vga AL128 composite to vga composite to vga converter ic RGB888 to vga converter ic
1999 - difference between mq5 and mq6

Abstract: AL128 composite to vga Color TV vertical section ICs RGB565 ENcoder vga to tv converter ic MQ9 connector MQ7 connector IC Ensemble data sheet mq6 AL422 New and original
Text: RED5 RED6 RED7 VDD MQ0 MQ1 MQ2 MQ3 GND MQ4 MQ5 MQ6 MQ7 VDD MD0 MD1 MD2 MD3 GND MD4 , * 8). The value of GinHStartDlt is signed, and its value is between ­128 and 127. Please refer to , position) + (GinVStartDlt * 4). The value of GinVStartDlt is signed, and its value is between ­128 and 127 , position) + (GinHStZoomDlt * 8). The value of GinHStZoomDlt is signed, and its range is between ­64 and 63 , (GinVStZoomDlt * 4). The value of GinVStZoomDlt is signed, and its range is between -64 and 63. Please refer to


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PDF AL128 AL128 24-bit 230mA 800x600 130mA difference between mq5 and mq6 AL128 composite to vga Color TV vertical section ICs RGB565 ENcoder vga to tv converter ic MQ9 connector MQ7 connector IC Ensemble data sheet mq6 AL422 New and original
Not Available

Abstract: No abstract text available
Text: , Gch and Bch LSB: Ro, Go, Bo MSB: R7 , Gt.Bt Clock signal incoming terminal for Rch, Gch and Bch (TTL , incoming terminal for Rch, Gch and Bch (standard: 2 V) Reference resistor connection terminal for Rch, Gch and Bch Connect >0.1 nF capacitor to the AVod terminal Connect >0.1 uF capacitor to the AVss terminal Analog signal output terminals for Rch, Gch and Bch MB40C958V BLOCK DIAGRAM 4 , difference Reference input voltage Full-scale current*1 Full-scale output voltage*2 Digital "H" level input


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PDF MB40C958V LQFP48 48-pin FPT-48P-M05) MB40C958V
1999 - M518221

Abstract: AL128 Application Notes difference between mq5 and mq6 AL128 composite to vga composite to vga converter ic RGB888 to vga converter ic AL100 RGB565 to rgb888 MD11 MD10
Text: MQ4 MQ5 MQ6 MQ7 VDD MD0 MD1 MD2 MD3 GND MD4 MD5 MD6 120 119 118 117 116 115 114 , is between ­128 and 127. Please refer to Section 8.3, AL100 Plug & Play Hardware Table for the , is between ­128 and 127. April 5, 1999 30 AL100 Please refer Section 8.3, AL100 Plug & , , and its range is between ­64 and 63. Please refer to Section 8.3, AL100 Plug & Play Hardware Table , its range is between -64 and 63. Please refer to Section 8.3, AL100 Plug & Play Hardware Table for


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PDF AL100 AL100 24-bit 180mA 100mA M518221 AL128 Application Notes difference between mq5 and mq6 AL128 composite to vga composite to vga converter ic RGB888 to vga converter ic RGB565 to rgb888 MD11 MD10
Not Available

Abstract: No abstract text available
Text: between reference frequency ( f r ) and comparison frequency (fP and may in the ) worst case take longer , : PS pin must be set ”L at Power-ON ” Relation Between the FC Input and Phase Characteristics , , the monitor pin (fom) output is controlled by the FC bit. The relationship between the FC bit and , (PLL) frequency synthesizer with a pulse-swallow function, and is suitable for the digital radio , required for digital cellularphones. The MB15A16 can operate from a single +3 V supply and has an Icc of


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PDF MB15A16 MB15A16 F9511
2004 - QS001

Abstract: UM0141 microcontroller based projects Zilog eZ80 BY190 ZDS 644 ez89
Text: the devices, applications, or technology described is intended to suggest possible uses and may be , Control APIs and Scheduler API . . . . . . . . . . . . . .19 Thread Communication APIs . . . . . . . . . , . .20 Timer and Clock APIs . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 Memory Management APIs-Partition and Region . . . . . .21 Interrupt Management APIs . . . . . . . . . . . . . . . , Switching and Interrupt Response Times on the eZ80F91 MCU . . . . . . . . . . . . . . . . . . . . . . . . .


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PDF UM007503-0104 QS001 UM0141 microcontroller based projects Zilog eZ80 BY190 ZDS 644 ez89
HA12010

Abstract: HA1201 hitachi fluorescent Display driver 12-point circuit fluorescent tube 12v circuit fluorescent tube 24v
Text: , under 15V of pin-13 voltage f i t = 56kfl Measure the voltage difference between Vu 1 4 and Ground Measure the voltage difference between V,t 1 3 and Vu 14 Measure the voltage difference between Vu 12 and Vu 13 Measure the voltage difference between VM 11 and V,* 12 Measure the voltage difference between Vu 10 and V lt 11 Measure the voltage difference between Vu 9 and V'u 10 Measure the voltage difference between Vu 8 and Vlt 9 Measure the voltage difference between V,4 7 and V, 8 Measure the voltage


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PDF HA12010, 16-pin 12-point 24-point HA12010 HA12010 HA1201 hitachi fluorescent Display driver circuit fluorescent tube 12v circuit fluorescent tube 24v
block diagram of vu meter

Abstract: HA12010 vu meter VU meter circuit hitachi fluorescent Display driver HA1201 ha120 3000V JT56 24-point
Text: ~70°C 2< Potential difference between pirn- 2 and 16: 7.0V or less. 3' Under V,x - 24 V Max. Voltage , Difference between V./.14&GND ¿Vul Measure the voltage difference between Vu 14 and Ground 0.220 0.250 0.280 , difference between V,t 13 and V,» 14 0.225 0.250 0.275 V Voltage Difference between Vu 12 & V,» 13 ( Vu 12- V'ck 13) ¿ Vu 3 Measure the voltage difference between Vu 12 and Vu 13 0.225 0.250 0.275 V Voltage , and Vu 12 0.225 0.250 0.275 V Voltage Difference between V,» 10 & V„ 11 ( V,» 10" V„ 11) ¿Vu 5


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PDF HA12010 HA12010, 16-pin 12-point Vccsi0to24V) 24-point HA12010 DP-16) block diagram of vu meter vu meter VU meter circuit hitachi fluorescent Display driver HA1201 ha120 3000V JT56
2005 - texas ldr

Abstract: security system using LDR E59FC180 TMS470R1X FFE88006 TMS470 E59F1170
Text: access the difference between Flash and ROM devices is 14 cycles, as shown in Figure 2. 2 , timing difference between running the same code on a flash device and a ROM device, in reference to the , behavior. Therefore, to minimize the timing difference between flash and ROM devices, it is recommended to , Code Example The complete difference between flash and ROM devices is the result of the waitstates , timing between flash and the ROM controller when using the same application software. The calculation of


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PDF SPNA080 TMS470R1x texas ldr security system using LDR E59FC180 TMS470R1X FFE88006 TMS470 E59F1170
2001 - propagationdelay

Abstract: JESD65 SCAA055 SCAD004B SLLA075
Text: and Package Skew) Pulse Skew Pulse skew (tsk(p) is the magnitude of the time difference between , device with a single driving input terminal. The main difference between bank skew and output skew is , Multiple-Frequency Skew PLL Tracking Skew PLL tracking skew is the phase difference between the input clock and , Error) Phase offset/phase error is the time difference between the reference input clock and the , difference between the averaged input reference clock and the averaged feedback input signal when the PLL is


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PDF SCAA055 propagationdelay JESD65 SCAA055 SCAD004B SLLA075
2007 - bq20zXX

Abstract: No abstract text available
Text: difference is the sum of the initial SOC0 differences between the cells, and the difference resulting from , between the cell voltage difference at cell undervoltage and the total-capacity Qmax difference . Here are , Relationship Between the Cell Voltage Difference at Cell Under Voltage and Qmax Difference It can be seen that , imbalance detection. Open-circuit voltage difference between lowestand highest-voltage cells to trip Gas , for cylindrical cells 0 When Battery Rest Time passes and a voltage difference that exceeds the


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PDF SLUA433 bq20zXX
2013 - 2SK853A(1)-T1-A

Abstract: No abstract text available
Text: 27M 100k 20M 100k 30M 100k 74M 100k T15 Output gain difference between 100kHz and 60MHz , selected, Output gain difference between 100kHz and 13.5MHz T15 Output gain difference between 100kHz and 27MHz 30MHz_LPF is selected, T13 Output gain difference T11 between 100kHz and 20MHz T15 30MHz_LPF is selected, T13 Output gain difference T11 between 100kHz and , difference T15 300mVpp 12MHz_LPF is selected, T13 T11 300mVpp between 100kHz and 74MHz


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PDF ENA0896A LV7150V LV7150V 6MHz/12MHz/30MHz-LPF. 60MHz. 60MHz 6MHz/12MHz/30MHz-LPF A0896-7/7 2SK853A(1)-T1-A
2008 - M38D24G4FP

Abstract: register 38C1
Text: APPLICATION NOTE 38C1 Group, 38D2 Group Difference between 38C1 Group and 38D2 Group 1. Difference between 38C1 Group and 38D2 Group Table 1.1 Difference Between 38C1 Group and 38D2 Group (1 , Difference between 38C1 Group and 38D2 Group Table 1.2 Difference Between 38C1 Group and 38D2 Group (2 , 38C1 Group, 38D2 Group Difference between 38C1 Group and 38D2 Group Table 1.3 Difference Between , 38C1 Group, 38D2 Group Difference between 38C1 Group and 38D2 Group 2. Pin configurations of 38C1


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PDF M38D24G4FP/HP M38D24G4 M38D24G6FP/HP M38D24G6 M38D28G8FP/HP M38D28G8 M38D29GCFP/HP M38D29G M38D29GFFP/HP M38D29GF M38D24G4FP register 38C1
2000 - V27D

Abstract: MN88831 G12A5 panasonic TV tuner QFP048-P-1010C g13b tuner 92
Text: Difference between measured V31 and V27 0 0.8 dB QPSK B.P.F./L.P.F. frequency characteristic 1 V27B Difference between V27 at VIN48 = 0.4 V[p-p], -3.7 6.2273 MHz, f27 = 0.5 MHz and that at , Difference between V27 at VIN48 = 0.4 V[p-p], 6.7273 MHz, f27 = 0.5 MHz and that at fIN48 = 5.7773 MHz , V27E Difference between V27 at VIN48 = 0.4 V[p-p], 4.7273 MHz, f27 = 0.5 MHz and that at fIN48 = , Difference between V27 at VIN48 = 0.4 V[p-p], 3.58 MHz, f27 2.15 MHz and that at fIN48 = 5.7773 MHz


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PDF AN8934FA V27D MN88831 G12A5 panasonic TV tuner QFP048-P-1010C g13b tuner 92
1996 - CB4CLED

Abstract: x74_194 sr4cled CB16CE cd4re 2 bit magnitude comparator using 2 xor gates CB16CLE cd4rle 74139 Dual 2 to 4 line decoder TTL 7400
Text: 4 0 1410 Xilinx XC7000 and XC9000 Libraries Selection Guide Design Elements X2845 Index , , XC4005, and XC-DS501 are registered trademarks of Xilinx. All XC-prefix product designations , Block, FastCLK, HardWire, LCA, Logic Cell, LogicProfessor, MicroVia, PLUSASM, UIM, VectorMaze, and ZERO+ are trademarks of Xilinx. The Programmable Logic Company and The Programmable Gate Array Company are service marks of Xilinx. IBM is a registered trademark and PC/AT, PC/XT, PS/2 and Micro Channel are


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PDF XC7000 XC9000 X2845 XC2064, XC3090, XC4005, XC-DS501 XilX74 X4191 CB4CLED x74_194 sr4cled CB16CE cd4re 2 bit magnitude comparator using 2 xor gates CB16CLE cd4rle 74139 Dual 2 to 4 line decoder TTL 7400
2006 - M38D24G4FP

Abstract: REJ05B0833-0103 8P45
Text: APPLICATION NOTE 38C2A Group, 38D2 Group Difference between 38C2A Group and 38D2 Group 1. Difference between 38C2A Group and 38D2 Group Table 1. Difference between 38C2A Group and 38D2 Group 38C2A , , 38D2 Group Difference between 38C2A Group and 38D2 Group 3. SFR Comparison between 38C2A Group and , Group, 38D2 Group Difference between 38C2A Group and 38D2 Group 38C2A Group 38D2 Group 002016 , Group Difference between 38C2A Group and 38D2 Group 38C2A Group 0FE016 Serial I/O1 control


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PDF 38C2A M38C29FFAFP/HP M38C24M4A-XXXFP/HP M38C24M6A-XXXFP/HP M38C29MCA-XXXFP/HP M38D24G4FP/HP, M38D24G4FP REJ05B0833-0103 8P45
2001 - VR27

Abstract: TA1204AF VR25 VR33
Text: difference between the upper and lower measurement values as the dynamic range to be obtained. For input B , ) : short to GND Change SW27 from a to b as before, and adjust VR27 so there is no difference between the 0 , , adjust VR27 so there is no difference between the 0 level and the black level in the output waveform of , . Measure the voltage difference between the black and 0 waveform levels for an output pin (pin 21 when X = , -p) including black and white levels in input A (X In1). Measure the voltage difference between the black and 0


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PDF TA1204AF TA1204AF VR27 VR25 VR33
1999 - scintillator

Abstract: TP191
Text: /photon conversion process is controlled by the voltage difference between Vscintillator and VMCP rear , maximum allowable voltage difference between VMCP front and VMCP rear is 1200V. A new detector typically , accelerated into the scintillator. The maximum allowable voltage difference between Vscintillator and VMCP , difference between the MCP Front and MCP Rear is 1200V, and the maximum allowable difference between the MCP , to the PMT yield larger signals; the greater the voltage difference between MCP rear and


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PDF TP-191 TP191/JUN00 scintillator TP191
2002 - 9231M

Abstract: Japan Servo step -syn sanyo motor sanyo Laser pickup CD Laser pickup focus tracking
Text: Difference between LF2 voltage when RFSM = 3.5 V and DEF is detected and LF2 voltage when RFSM = 3.5 V , error signal is derived by detecting the difference between (A + C) and (B + D), which is (B + D) - (A + , additional components. The differences between the LA9230M and the LA9231M are that the LA9231M: (1) has a , connects the TE signal gain setting resistor between this pin and TE pin. TE signal output pin. TES , configuring the tracking phase compensation constant between the TD and VR pins. Tracking phase compensation


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PDF LA9230M/9231M LA9230M LA9231M LC78620E, LA9231M: 3159-QIP64E LA9230M/9231M] 9231M Japan Servo step -syn sanyo motor sanyo Laser pickup CD Laser pickup focus tracking
2002 - AN-1238

Abstract: DS92LV1021 DS92LV1023 DS92LV1212A DS92LV1224
Text: difference between the paths can be attributed solely to the serializer and deserializer delays tSD and tDD , skew between a deserializer's recovered clock (RCLK) and it's recovered data, but rather, between the , each SerDes pair the phase between the RCLK and the recovered data is relatively constant, but any difference in delay from one serial stream to another will result in skew between the RCLKs of the , must ultimately use only 1 RCLK, skew between the serial streams will affect the setup and hold times


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PDF 10-bit 16-bit AN-1238 AN-1238 DS92LV1021 DS92LV1023 DS92LV1212A DS92LV1224
1997 - la9240

Abstract: lc78620 LA9240M sanyo Laser pickup CD Laser pickup focus tracking sanyo CD Laser pickup
Text: signal is derived by detecting the difference between (A + C) and (B + D), which is (B + D) - (A + C , temperature Conditions Operating supply voltage VCC op2 Set resistance R between DSP and CLK , 100 ­100 +40 140 ­60 mV mV mV DEFvth Difference between LF2 voltage when RFSM = 3.5 , gain setting resistor between this pin and TE pin. TE signal output pin. TES (Track Error Sense , compensation constant between the TD and VR pins. Tracking phase compensation setting pin. Tracking jump


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PDF LA9240M LA9240M LC78622E LC78620E, 3159-QFP64E LA9240M] la9240 lc78620 sanyo Laser pickup CD Laser pickup focus tracking sanyo CD Laser pickup
Supplyframe Tracking Pixel