Datasheet AD7862 (Analog Devices) - 6
| Fabricante | Analog Devices |
| Descripción | Simultaneous Sampling Dual 250 kSPS 12-Bit ADC |
| Páginas / Página | 17 / 6 — AD7862. PIN FUNCTION DESCRIPTION. Pin. Mnemonic. Description. PIN … |
| Formato / tamaño de archivo | PDF / 454 Kb |
| Idioma del documento | Inglés |
AD7862. PIN FUNCTION DESCRIPTION. Pin. Mnemonic. Description. PIN CONFIGURATION. NC 1. 28 NC. DB11 2. 27 AGND. DB10 3. 26 VB1. DB9 4. 25 VA1. DB8 5
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AD7862 PIN FUNCTION DESCRIPTION Pin Mnemonic Description
1 NC No Connect 2 DB11 Data Bit 11 (MSB). Three-state TTL output. Output coding is twos complement for the AD7862- 10 and AD7862-3. Output coding is straight (natural) binary for the AD7862-2. 3–6 DB10–DB7 Data Bit 10 to Data Bit 7. Three-state TTL outputs. 7 DGND Digital Ground. Ground reference for digital circuitry. 8 CONVST Convert Start Input. Logic Input. A high to low transition on this input puts both track/holds into their hold mode and starts conversion on both channels. 9–15 DB6–DB0 Data Bit 6 to Data Bit 0. Three-state TTL outputs. 16 AGND Analog Ground. Ground reference for mux, track/hold, reference and DAC circuitry. 17 VB2 Input Number 2 of Channel B. Analog Input voltage ranges of ± 10 V (AD7862-10), ± 2.5 V (AD7862-3) and 0 V–2.5 V (AD7862-2). 18 VA2 Input Number 2 of Channel A. Analog Input voltage ranges of ± 10 V (AD7862-10), ± 2.5 V (AD7862-3) and 0 V–2.5 V (AD7862-2). 19 VREF Reference Input/Output. This pin is connected to the internal reference through a series resistor and is the output reference source for the analog-to-digital converter. The nominal reference voltage is 2.5 V, and this appears at the pin. 20 A0 Multiplexer Select. This input is used in conjunction with RD and CS low to enable the data outputs. With A0 logic low, one read after a conversion will read the data from each of the ADCs in the sequence, VA1, VA2, and a subsequent read, when A0 goes high, reads the data from VB1, VB2. 21 CS Chip Select Input. Active low logic input. The device is selected when this input is active. 22 RD Read Input. Active low logic input. This input is used in conjunction with A0 and CS low to enable the data outputs. With A0 logic low, one read after a conversion will read the data from each of the ADCs in the sequence, VA1, VA2, and a subsequent read, when A0 goes high, reads the data from VB1, VB2. 23 BUSY Busy Output. The busy output is triggered high by the falling edge of CONVST and remains high until conversion is completed. 24 VDD Analog and Digital Positive Supply Voltage, +5.0 V ± 5%. 25 VA1 Input Number 1 of Channel A. Analog Input voltage ranges of ± 10 V (AD7862-10), ± 2.5 V (AD7862-3) and 0 V–2.5 V (AD7862-2). 26 VB1 Input Number 1 of Channel B. Analog Input voltage ranges of ± 10 V (AD7862-10), ± 2.5 V (AD7862-3) and 0 V–2.5 V (AD7862-2). 27 AGND Analog Ground. Ground reference for mux, track/hold, reference and DAC circuitry. 28 NC No Connect
PIN CONFIGURATION NC 1 28 NC DB11 2 27 AGND DB10 3 26 VB1 DB9 4 25 VA1 DB8 5 24 V AD7862 DD DB7 6 TOP VIEW 23 BUSY DGND 7 (Not to Scale) 22 RD CONVST 8 21 CS DB6 9 20 A0 DB5 10 19 VREF DB4 11 18 VA2 DB3 12 17 VB2 DB2 13 16 AGND DB1 14 15 DB0 NC = NO CONNECT
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1 NC No Connect 2 DB11 Data Bit 11 (MSB). Three-state TTL output. Output coding is twos complement for the AD7862- 10 and AD7862-3. Output coding is straight (natural) binary for the AD7862-2. 3–6 DB10–DB7 Data Bit 10 to Data Bit 7. Three-state TTL outputs. 7 DGND Digital Ground. Ground reference for digital circuitry. 8 CONVST Convert Start Input. Logic Input. A high to low transition on this input puts both track/holds into their hold mode and starts conversion on both channels. 9–15 DB6–DB0 Data Bit 6 to Data Bit 0. Three-state TTL outputs. 16 AGND Analog Ground. Ground reference for mux, track/hold, reference and DAC circuitry. 17 VB2 Input Number 2 of Channel B. Analog Input voltage ranges of ± 10 V (AD7862-10), ± 2.5 V (AD7862-3) and 0 V–2.5 V (AD7862-2). 18 VA2 Input Number 2 of Channel A. Analog Input voltage ranges of ± 10 V (AD7862-10), ± 2.5 V (AD7862-3) and 0 V–2.5 V (AD7862-2). 19 VREF Reference Input/Output. This pin is connected to the internal reference through a series resistor and is the output reference source for the analog-to-digital converter. The nominal reference voltage is 2.5 V, and this appears at the pin. 20 A0 Multiplexer Select. This input is used in conjunction with RD and CS low to enable the data outputs. With A0 logic low, one read after a conversion will read the data from each of the ADCs in the sequence, VA1, VA2, and a subsequent read, when A0 goes high, reads the data from VB1, VB2. 21 CS Chip Select Input. Active low logic input. The device is selected when this input is active. 22 RD Read Input. Active low logic input. This input is used in conjunction with A0 and CS low to enable the data outputs. With A0 logic low, one read after a conversion will read the data from each of the ADCs in the sequence, VA1, VA2, and a subsequent read, when A0 goes high, reads the data from VB1, VB2. 23 BUSY Busy Output. The busy output is triggered high by the falling edge of CONVST and remains high until conversion is completed. 24 VDD Analog and Digital Positive Supply Voltage, +5.0 V ± 5%. 25 VA1 Input Number 1 of Channel A. Analog Input voltage ranges of ± 10 V (AD7862-10), ± 2.5 V (AD7862-3) and 0 V–2.5 V (AD7862-2). 26 VB1 Input Number 1 of Channel B. Analog Input voltage ranges of ± 10 V (AD7862-10), ± 2.5 V (AD7862-3) and 0 V–2.5 V (AD7862-2). 27 AGND Analog Ground. Ground reference for mux, track/hold, reference and DAC circuitry. 28 NC No Connect
PIN CONFIGURATION NC 1 28 NC DB11 2 27 AGND DB10 3 26 VB1 DB9 4 25 VA1 DB8 5 24 V AD7862 DD DB7 6 TOP VIEW 23 BUSY DGND 7 (Not to Scale) 22 RD CONVST 8 21 CS DB6 9 20 A0 DB5 10 19 VREF DB4 11 18 VA2 DB3 12 17 VB2 DB2 13 16 AGND DB1 14 15 DB0 NC = NO CONNECT
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