Datasheet AD7895 (Analog Devices) - 5
| Hersteller | Analog Devices |
| Beschreibung | True Bipolar Input, 5 V Single Supply, 12-Bit, Serial 3.8 µs ADC in 8-Pin Package |
| Seiten / Seite | 13 / 5 — AD7895. PIN FUNCTION DESCRIPTION. Pin. No. Mnemonic. Description. PIN … |
| Dateiformat / Größe | PDF / 351 Kb |
| Dokumentensprache | Englisch |
AD7895. PIN FUNCTION DESCRIPTION. Pin. No. Mnemonic. Description. PIN CONFIGURATION. DIP and SOIC. REF IN. 8 VDD. 7 CONVST. TOP VIEW. GND
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AD7895 PIN FUNCTION DESCRIPTION Pin Pin No. Mnemonic Description
1 REF IN Voltage Reference Input. An external reference source should be connected to this pin to provide the refer- ence voltage for the AD7895’s conversion process. The REF IN input is buffered on chip. The nominal ref- erence voltage for correct operation of the AD7895 is +2.5 V. 2 VIN Analog Input Channel. The analog input range is ± 10 V (AD7895-10), ± 2.5 V (AD7895-3) and 0 V to +2.5 V (AD7895-2). 3 GND Analog Ground. Ground reference for track/hold, comparator, digital circuitry and DAC. 4 SCLK Serial Clock Input. An external serial clock is applied to this input to obtain serial data from the AD7895. A new serial data bit is clocked out on the falling edge of this serial clock. Data is guaranteed valid for 10 ns after this falling edge so that data can be accepted on the falling edge when a fast serial clock is used. The serial clock input should be taken low at the end of the serial data transmission. 5 SDATA Serial Data Output. Serial data from the AD7895 is provided at this output. The serial data is clocked out by the falling edge of SCLK, but the data can also be read on the falling edge of SCLK. This is possible because data bit N is valid for a specified time after the falling edge of SCLK (data hold time) (see Figure 4). Sixteen bits of serial data are provided with four leading zeros followed by the 12 bits of conversion data. On the sixteenth falling edge of SCLK, the SDATA line is held for the data hold time and then is disabled (three-stated). Output data coding is 2s complement for the AD7895-10, AD7895-3 and straight binary for the AD7895-2. 6 BUSY The BUSY pin is used to indicate when the part is doing a conversion. The BUSY pin will go high on the falling edge of CONVST and will return low when the conversion is complete. 7 CONVST Convert Start. Edge-triggered logic input. On the falling edge of this input, the track/hold goes into its hold mode, and conversion is initiated. If CONVST is low at the end of conversion, the part goes into power- down mode. In this case, the rising edge of CONVST “wakes up” the part. 8 VDD Positive supply voltage, +5 V ± 5%.
PIN CONFIGURATION DIP and SOIC REF IN 1 8 VDD AD7895 V 2 7 CONVST IN TOP VIEW GND 3 (Not to Scale) 6 BUSY SCLK 4 5 SDATA
–4– REV. 0
1 REF IN Voltage Reference Input. An external reference source should be connected to this pin to provide the refer- ence voltage for the AD7895’s conversion process. The REF IN input is buffered on chip. The nominal ref- erence voltage for correct operation of the AD7895 is +2.5 V. 2 VIN Analog Input Channel. The analog input range is ± 10 V (AD7895-10), ± 2.5 V (AD7895-3) and 0 V to +2.5 V (AD7895-2). 3 GND Analog Ground. Ground reference for track/hold, comparator, digital circuitry and DAC. 4 SCLK Serial Clock Input. An external serial clock is applied to this input to obtain serial data from the AD7895. A new serial data bit is clocked out on the falling edge of this serial clock. Data is guaranteed valid for 10 ns after this falling edge so that data can be accepted on the falling edge when a fast serial clock is used. The serial clock input should be taken low at the end of the serial data transmission. 5 SDATA Serial Data Output. Serial data from the AD7895 is provided at this output. The serial data is clocked out by the falling edge of SCLK, but the data can also be read on the falling edge of SCLK. This is possible because data bit N is valid for a specified time after the falling edge of SCLK (data hold time) (see Figure 4). Sixteen bits of serial data are provided with four leading zeros followed by the 12 bits of conversion data. On the sixteenth falling edge of SCLK, the SDATA line is held for the data hold time and then is disabled (three-stated). Output data coding is 2s complement for the AD7895-10, AD7895-3 and straight binary for the AD7895-2. 6 BUSY The BUSY pin is used to indicate when the part is doing a conversion. The BUSY pin will go high on the falling edge of CONVST and will return low when the conversion is complete. 7 CONVST Convert Start. Edge-triggered logic input. On the falling edge of this input, the track/hold goes into its hold mode, and conversion is initiated. If CONVST is low at the end of conversion, the part goes into power- down mode. In this case, the rising edge of CONVST “wakes up” the part. 8 VDD Positive supply voltage, +5 V ± 5%.
PIN CONFIGURATION DIP and SOIC REF IN 1 8 VDD AD7895 V 2 7 CONVST IN TOP VIEW GND 3 (Not to Scale) 6 BUSY SCLK 4 5 SDATA
–4– REV. 0