The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LTC2452CDDB#TRMPBF Linear Technology LTC2452 - Ultra-Tiny, Differential, 16-Bit ΔΣ ADC with SPI Interface; Package: DFN; Pins: 8; Temperature Range: 0°C to 70°C
LTC2452CDDB#TRPBF Linear Technology LTC2452 - Ultra-Tiny, Differential, 16-Bit ΔΣ ADC with SPI Interface; Package: DFN; Pins: 8; Temperature Range: 0°C to 70°C
LTC2452IDDB#TRMPBF Linear Technology LTC2452 - Ultra-Tiny, Differential, 16-Bit ΔΣ ADC with SPI Interface; Package: DFN; Pins: 8; Temperature Range: -40°C to 85°C
LTC2452CDDB#PBF Linear Technology LTC2452 - Ultra-Tiny, Differential, 16-Bit ΔΣ ADC with SPI Interface; Package: DFN; Pins: 8; Temperature Range: 0°C to 70°C
LTC2452IDDB#TRPBF Linear Technology LTC2452 - Ultra-Tiny, Differential, 16-Bit ΔΣ ADC with SPI Interface; Package: DFN; Pins: 8; Temperature Range: -40°C to 85°C
LTC2452IDDB#PBF Linear Technology LTC2452 - Ultra-Tiny, Differential, 16-Bit ΔΣ ADC with SPI Interface; Package: DFN; Pins: 8; Temperature Range: -40°C to 85°C

circuit diagram for ADC interfacing with 8051 mic Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2009 - 1F27

Abstract: tenx Tenx Technology 1F4F 1F48 buzzer with 8051 VOICE RECORDER USB application buzzer 8ohm 1F02 1F05
Text: Vref Enable ref voltage to VOB Enable MIC ADC Internal Resister MIC ADC PGC/AGC select 0:AGC, 1:PGC MIC ADC Filter Enable MIC ADC PCTL 1: received DATA1 packet; 0: received DATA0 Packet. 10 , . 2 BLOCK DIAGRAM , . 4 Pin Assignment Diagram . 5 APPLICATION CIRCUIT


Original
PDF TMU6102 DS-TMU6102 48-PIN 80-PIN 1F27 tenx Tenx Technology 1F4F 1F48 buzzer with 8051 VOICE RECORDER USB application buzzer 8ohm 1F02 1F05
2007 - Not Available

Abstract: No abstract text available
Text: . 59 Connection Diagram for Practical Applications , ) . Headphone Output with Mono Mic Input (AIN1L, +20dB) . Headphone Output with Mono Diff Mic Input (AIN1L/AIN1R, +20dB , ) . Speaker Output with Mono Mic Input (AIN1L, +20dB) . Speaker Output with Mono Diff Mic Input (AIN1L/AIN1R, +20dB


Original
PDF DEM-DAI3793A/3794A SBAU127
2005 - TRANSFORMER bck 2801

Abstract: 100W car power amplifier stereo dc 12 volts pc preamp with bass treble circuit diagrams lm324 adjustable zero span circuit with lm358 musical fidelity preamp 2a ADS1211 C51 Microcontroller finder 4052 finder 95.75 AEG CS DVD 700 lm358 and rtd interfacing
Text: provides maximum output voltage swing for widest dynamic range. This may be particularly important with , OPA727 AIN ADS8342 16-Bit ADC ­5V Common ­5V OPA727 functional block diagram . 1.8V , Amp REF Processor ADC Signal & High-Speed Op Amps pg. 6-19 Video Op Amps pg. 20 , Isolation Amplifiers 46 Amplifiers for Driving Analog-to-Digital Converters 47-48 Amplifier and , Converter Plug-In (DCP) for Code Composer StudioTM IDE . . . . . . . . . . . .75-77 Precision Analog


Original
PDF MSC12xx MSP430 TRANSFORMER bck 2801 100W car power amplifier stereo dc 12 volts pc preamp with bass treble circuit diagrams lm324 adjustable zero span circuit with lm358 musical fidelity preamp 2a ADS1211 C51 Microcontroller finder 4052 finder 95.75 AEG CS DVD 700 lm358 and rtd interfacing
2004 - ADS1211 C51 Microcontroller

Abstract: TLV5630 source code 8051 Family with interfacing mic tcs2301 standalone data acquisition system for 8051 temperature sensor PIC ads1112 laser diode DVD 100mw TMS320C5416 DSP TCS230 circuit diagram for DAC interfacing with 8051 mic
Text: AIN3 Clock Oscillator GND ADS1112 functional block diagram . 24-Bit ADC with 4 , sources that can take advantage of the PGA within the converter. Every ADC requires a reference, and for , Instruments 3Q 2004 Delta-Sigma () ADCs 16-Bit ADC with Input Multiplexer and Onboard Reference ADS1112 , self-calibrating ADC with two differential or three single-ended channels and up to 16-bits of resolution in the , The ADS1224 is a precision, wide dynamic range ADC with 24-bit resolution operating from a 2.7V to


Original
PDF MSC12xx MSP430, C2000TM, C5000TM, C6000TM, TMS320C54x, TMS320C55x, TNS320C28x, C6000, SLAB042A ADS1211 C51 Microcontroller TLV5630 source code 8051 Family with interfacing mic tcs2301 standalone data acquisition system for 8051 temperature sensor PIC ads1112 laser diode DVD 100mw TMS320C5416 DSP TCS230 circuit diagram for DAC interfacing with 8051 mic
1997 - c2981

Abstract: AD7823 AD7810 MC68HC11 AD7823YRM AD7823YR PIC16 example codes SPI infrared interfacing with pic16 data acquisition 8051 microcontrollers dac interfacing with 8051 microcontroller
Text: sampling circuit (100 ns) is, in effect, the acquisition time of the ADC . For example, with a source , 11 below. 111.111 111.110 ADC CODE Figure 10 shows the equivalent charging circuit for , diagram for a serial read from the AD7823. The serial interface works with both a continuous and a , .2 *ADDITIONAL PINS OMITTED FOR CLARITY SCLK/PD4 DOUT P1.1 Figure 19. Interfacing to the 8051 Serial , a FEATURES 8-Bit ADC with 4.5 s Conversion Time Small Footprint 8-Lead microSOIC Package


Original
PDF AD7810) AD7823 C2981 AD7823 AD7810 MC68HC11 AD7823YRM AD7823YR PIC16 example codes SPI infrared interfacing with pic16 data acquisition 8051 microcontrollers dac interfacing with 8051 microcontroller
1998 - spi PIC16 example codes

Abstract: AD7810 AD7823 AD7823YN AD7823YR AD7823YRM MC68HC11
Text: , the acquisition time of the ADC . For example, with a source impedance (R2) of 10 , the charge time , the need for any gluing logic. When interfacing to the 8051 , the SCLK must be inverted. The , connection diagram is shown in Figure 18. AD7823* Figure 19. Interfacing to the 8051 Serial Port It , a FEATURES 8-Bit ADC with 4.5 s Conversion Time Small Footprint 8-Lead microSOIC Package , 1. Complete, 8-Bit ADC in 8-Lead Package The AD7823 is an 8-bit 4.5 µs ADC with inherent


Original
PDF AD7810) AD7823 spi PIC16 example codes AD7810 AD7823 AD7823YN AD7823YR AD7823YRM MC68HC11
2000 - AD7810

Abstract: AD7823 AD7823YN AD7823YR AD7823YRM MC68HC11 digital to analog converter interfacing with 8051
Text: numbers are measured with the load circuit of Figure 1. They are defined as the time required for the o/p , time of the ADC . For example, with a source impedance (R2) of 10 , the charge time for the sampling , Figure 10 shows the equivalent charging circuit for the sampling capacitor when the ADC is in its , the need for any gluing logic. When interfacing to the 8051 , the SCLK must be inverted. The , would allow direct interfacing between the AD7823 and 8051 to be implemented without the need for any


Original
PDF AD7810) AD7823 AD7810 AD7823 AD7823YN AD7823YR AD7823YRM MC68HC11 digital to analog converter interfacing with 8051
2000 - AD7810

Abstract: AD7810YN AD7810YR AD7810YRM MC68HC11 interfacing of 8 way dip switch to 8051 PIC17 SSP example codes AD7810 dip
Text: with the load circuit of Figure 1. They are defined as the time required for the o/p to cross 0.8 V or , ADC . For example, with a source impedance (R2) of 10 , the charge time for the sampling capacitor is , circuit for the sampling capacitor when the ADC is in its acquisition phase. R2 represents the source , , QSPI and SPI, without the need for any gluing logic. When interfacing to the 8051 , the SCLK must be , diagram for a serial read from the AD7810. The serial interface works with both a continuous and a


Original
PDF 10-Bit 10-Bit AD7810 AD7810 AD7810YN AD7810YR AD7810YRM MC68HC11 interfacing of 8 way dip switch to 8051 PIC17 SSP example codes AD7810 dip
2000 - Not Available

Abstract: No abstract text available
Text: numbers are measured with the load circuit of Figure 1. They are defined as the time required for the o/p , ADC . For example, with a source impedance (R2) of 10 Ω, the charge time for the sampling capacitor , Figure 10 shows the equivalent charging circuit for the sampling capacitor when the ADC is in its , timing diagram for a serial read from the AD7823. The serial interface works with both a continuous and , a FEATURES 8-Bit ADC with 4 ␮s Conversion Time Small Footprint 8-Lead microSOIC Package


Original
PDF AD7810) AD7823 DOUT497
2000 - Not Available

Abstract: No abstract text available
Text: effect, the acquisition time of the ADC . For example, with a source impedance (R2) of 10 Ω, the , ADC CODE Figure 10 shows the equivalent charging circuit for the sampling capacitor when the ADC , , QSPI and SPI, without the need for any gluing logic. When interfacing to the 8051 , the SCLK must be , diagram for a serial read from the AD7810. The serial interface works with both a continuous and a , a FEATURES 10-Bit ADC with 2.3 ␮s Conversion Time Small Footprint 8-Lead microSOIC Package


Original
PDF 10-Bit 10-Bit AD7810
2000 - AD7810

Abstract: AD7823 AD7823YN AD7823YR AD7823YRM MC68HC11 RC5 Infrared 8051 digital to analog converter interfacing with 8051
Text: numbers are measured with the load circuit of Figure 1. They are defined as the time required for the o/p , time of the ADC . For example, with a source impedance (R2) of 10 , the charge time for the sampling , equivalent charging circuit for the sampling capacitor when the ADC is in its acquisition phase. R2 , for any gluing logic. When interfacing to the 8051 , the SCLK must be inverted. The "Microprocessor , interfacing between the AD7823 and 8051 to be implemented without the need for any "gluing" logic. The


Original
PDF AD7810) AD7823 AD7810 AD7823 AD7823YN AD7823YR AD7823YRM MC68HC11 RC5 Infrared 8051 digital to analog converter interfacing with 8051
1997 - C2980

Abstract: RC5 Infrared 8051
Text: time associated with the sampling circuit (100 ns) is, in effect, the acquisition time of the ADC . For , numbers are measured with the load circuit of Figure 1. They are defined as the time required for the o/p , . Figure 10 shows the equivalent charging circuit for the sampling capacitor when the ADC is in its , PINS OMITTED FOR CLARITY TXD RXD P1.1 8051 * Figure 19. Interfacing to the 8051 Serial Port , BACK a FEATURES 10-Bit ADC with 2 s Conversion Time Small Footprint 8-Lead microSOIC Package


Original
PDF 10-Bit C2980 RC5 Infrared 8051
Not Available

Abstract: No abstract text available
Text: the ADC . For example, with a source impedance (R2) of 10 £2, the charge time for the sampling , . Figure 10 shows the equivalent charging circuit for the sampling capacitor when the ADC is in its , for any gluing logic. When interfacing to the 8051 , the SCLK must be inverted. T he Microprocessor , diagram for a serial read from the AD7810. The serial interface works with both a continuous and a , RXD CONVST P1.1 •ADDITIONAL PINS OMITTED FOR CLARITY Figure 19. Interfacing to the 8051


OCR Scan
PDF 10-Bit AD7810 10-Bit Con968
2000 - c2981

Abstract: RC5 8051
Text: , the acquisition time of the ADC . For example, with a source impedance (R2) of 10 , the charge time for , , PIC17C, QSPI and SPI, without the need for any gluing logic. When interfacing to the 8051 , the SCLK must , *ADDITIONAL PINS OMITTED FOR CLARITY Figure 20. Interfacing to the 8051 Using I/O Ports Figure 18 , a FEATURES 8-Bit ADC with 4 s Conversion Time Small Footprint 8-Lead microSOIC Package Specified , -lead microSOIC package. 1. Complete, 8-Bit ADC in 8-Lead Package The AD7823 is an 8-bit 4 µs ADC with inherent


Original
PDF AD7810) D7823YR AD7823YR-REEL AD7823YR-REEL7 AD7823YRM AD7823YRM-REEL AD7823YRM-REEL7 c2981 RC5 8051
1998 - AD7810YRM-REEL

Abstract: No abstract text available
Text: are measured with the load circuit of Figure 1. They are defined as the time required for the o/p to , settling time associated with the sampling circuit (100 ns) is, in effect, the acquisition time of the ADC , . Figure 10 shows the equivalent charging circuit for the sampling capacitor when the ADC is in its , a FEATURES 10-Bit ADC with 2 s Conversion Time Small Footprint 8-Lead microSOIC Package Specified , s, 10-Bit ADC in 8-Lead microSOIC/DIP AD7810 FUNCTIONAL BLOCK DIAGRAM VDD AGND VREF AD7810


Original
PDF 10-Bit microSOID7810YR AD7810YR-REEL AD7810YR-REEL7 AD7810YRM AD7810YRM-REEL AD7810YRM-REEL7
1998 - AD7810

Abstract: AD7810YN AD7810YR AD7810YRM MC68HC11 RC5 8051
Text: settling time associated with the sampling circuit (100 ns) is, in effect, the acquisition time of the ADC , circuit for the sampling capacitor when the ADC is in its acquisition phase. R2 represents the source , SPI, without the need for any gluing logic. When interfacing to the 8051 , the SCLK must be inverted , CONVST P1.1 *ADDITIONAL PINS OMITTED FOR CLARITY Figure 19. Interfacing to the 8051 Serial Port , .0 P1.2 *ADDITIONAL PINS OMITTED FOR CLARITY Figure 20. Interfacing to the 8051 Using I/O Ports


Original
PDF 10-Bit 10-Bit AD7810 AD7810 AD7810YN AD7810YR AD7810YRM MC68HC11 RC5 8051
1997 - RC5 Infrared 8051

Abstract: c2981
Text: Analog Input Circuit VIN­ Figure 5. ADC Conversion Phase TYPICAL CONNECTION DIAGRAM Figure 6 , , the acquisition time of the ADC . For example, with a source impedance (R2) of 10 , the charge time for , would allow direct interfacing between the AD7823 and 8051 to be implemented without the need for any , BACK a FEATURES 8-Bit ADC with 4.5 s Conversion Time Small Footprint 8-Lead microSOIC Package , package. 1. Complete, 8-Bit ADC in 8-Pin Package The AD7823 is an 8-bit 4.5 µs ADC with inherent


Original
PDF AD7810) C2981 RC5 Infrared 8051
1997 - C2980

Abstract: AD7810 AD7810YN AD7810YR AD7810YRM MC68HC11 RC5 Infrared 8051
Text: circuit (100 ns) is, in effect, the acquisition time of the ADC . For example, with a source impedance (R2 , 111.110 ADC CODE Figure 10 shows the equivalent charging circuit for the sampling capacitor when , ., PIC16C, PIC17C, QSPI and SPI, without the need for any gluing logic. When interfacing to the 8051 , the , diagram for a serial read from the AD7810. The serial interface works with both a continuous and a , . P1.0 P1.2 *ADDITIONAL PINS OMITTED FOR CLARITY Figure 20. Interfacing to the 8051 Using I/O


Original
PDF 10-Bit 10-Bit AD7810 C2980 AD7810 AD7810YN AD7810YR AD7810YRM MC68HC11 RC5 Infrared 8051
Not Available

Abstract: No abstract text available
Text: associ­ ated with the sampling circuit (100 ns) is, in effect, the acquisi­ tion time of the ADC . For , the equivalent charging circuit for the sampling capacitor when the ADC is in its acquisition phase , , PIC17C, QSPI and SPI, without the need for any gluing logic. When interfacing to the 8051 , the SCLK must , connection diagram is shown in Figure 18. AD7823* Figure 19. interfacing to the 8051 Serial Port It , -Bit ADC with 4.5 y,s Conversion Time Small Footprint 8-Lead microSOIC Package Specified Over a -40°C to


OCR Scan
PDF AD7823 AD7810)
2000 - AD7813

Abstract: AD7813YN AD7813YR AD7813YRU N-16
Text: associated with the sampling circuit (100 ns) is, in effect, the acquisition time of the ADC . For example , . Figure 6 shows the equivalent charging circuit for the sampling capacitor when the ADC is in its , a FEATURES 8-/10-Bit ADC with 2.3 s Conversion Time On-Chip Track and Hold Operating Supply , to +5.5 V, 400 kSPS 8-/10-Bit Sampling ADC AD7813 FUNCTIONAL BLOCK DIAGRAM VDD VREF AGND , with minimal external circuitry. 4. Dynamic Specifications for DSP Users In addition to the


Original
PDF 8-/10-Bit AD7813 AD7813 16-Lead RU-16) AD7813YN AD7813YR AD7813YRU N-16
2000 - interfacing of 8 way dip switch to 8051

Abstract: What is the AD7819 data acquisition 8051 microprocessor digital to analog converter interfacing with 8051 3.3 ad7819 AD7819YN N-16 AD7819YRU AD7819YR AD7819
Text: approximately 100 ns. Figure 6 shows the equivalent charging circuit for the sampling capacitor when the ADC is , settling time associated with the sampling circuit (100 ns) is, in effect, the acquisition time of the ADC , a FEATURES 8-Bit ADC with 4.5 s Conversion Time On-Chip Track and Hold Operating Supply Range , with minimal external circuitry. 4. Dynamic Specifications for DSP Users In addition to the traditional ADC specifications, the AD7819 is specified for ac parameters, including signal-to-noise ratio


Original
PDF AD7819 16-Lead RU-16) interfacing of 8 way dip switch to 8051 What is the AD7819 data acquisition 8051 microprocessor digital to analog converter interfacing with 8051 3.3 ad7819 AD7819YN N-16 AD7819YRU AD7819YR
2000 - AD7813

Abstract: AD7813YN AD7813YR AD7813YRU N-16 C01005
Text: the sampling circuit (100 ns) is, in effect, the acquisition time of the ADC . For example, with a , equivalent charging circuit for the sampling capacitor when the ADC is in its acquisition phase. R2 , a FEATURES 8-/10-Bit ADC with 2.3 s Conversion Time On-Chip Track and Hold Operating Supply , kSPS 8-/10-Bit Sampling ADC AD7813 FUNCTIONAL BLOCK DIAGRAM VDD VREF AGND AD7813 DB7 , -bit-wide parallel interface allows interfacing to most popular microprocessors and DSPs with minimal external


Original
PDF 8-/10-Bit AD7813 AD7813 16-Lead RU-16) AD7813YN AD7813YR AD7813YRU N-16 C01005
1997 - AD7813

Abstract: AD7813YN AD7813YR AD7813YRU N-16 c30601
Text: . Figure 6 shows the equivalent charging circuit for the sampling capacitor when the ADC is in its , acquisition time of the ADC . For example, with a source impedance (R2) of 10 the charge time for the , a FEATURES 8-/10-Bit ADC with 2.3 s Conversion Time On-Chip Track and Hold Operating Supply , +5.5 V, 400 kSPS 8-/10-Bit Sampling ADC AD7813 FUNCTIONAL BLOCK DIAGRAM VDD VREF AGND , with minimal external circuitry. 4. Dynamic Specifications for DSP Users In addition to the


Original
PDF 8-/10-Bit AD7813 AD7813 16-Lead RU-16) C3060 AD7813YN AD7813YR AD7813YRU N-16 c30601
2000 - interfacing of 8 way dip switch to 8051

Abstract: data acquisition 8051 microprocessor AD7819 AD7819YN AD7819YR AD7819YRU N-16
Text: These numbers are measured with the load circuit of Figure 1. They are defined as the time required for , approximately 100 ns. Figure 6 shows the equivalent charging circuit for the sampling capacitor when the ADC is , settling time associated with the sampling circuit (100 ns) is, in effect, the acquisition time of the ADC , EN RD BUSY Figure 16. Interfacing to the 8051 *ADDITIONAL PINS OMITTED FOR CLARITY AD7819 , a FEATURES 8-Bit ADC with 4.5 s Conversion Time On-Chip Track and Hold Operating Supply Range


Original
PDF AD7819 par859 16-Lead RU-16) interfacing of 8 way dip switch to 8051 data acquisition 8051 microprocessor AD7819YN AD7819YR AD7819YRU N-16
1997 - interfacing of 8 way dip switch to 8051

Abstract: 8051 port timing diagram data acquisition 8051 microprocessor AD7819YRU C3059 AD7819YR AD7819YN AD7819 N-16 infrared interfacing with pic16
Text: numbers are measured with the load circuit of Figure 1. They are defined as the time required for the o/p , equivalent charging circuit for the sampling capacitor when the ADC is in its acquisition phase. R2 , VDD For small values of source impedance, the settling time associated with the sampling circuit (100 ns) is, in effect, the acquisition time of the ADC . For example, with a source impedance (R2) of , . Interfacing to the 8051 AD7819 to PIC16C6x/7x EN CS RD BUSY *ADDITIONAL PINS OMITTED FOR CLARITY


Original
PDF AD7819 AD7819 16-Lead RU-16) C3059 interfacing of 8 way dip switch to 8051 8051 port timing diagram data acquisition 8051 microprocessor AD7819YRU AD7819YR AD7819YN N-16 infrared interfacing with pic16
Supplyframe Tracking Pixel