SBAS843A september 2017 – july 2023 ADS8588H
PRODUCTION DATA
PIN | TYPE(1) | DESCRIPTION | |
---|---|---|---|
NAME | NO. | ||
AGND | 2, 26, 35, 40, 41, 47 | P | Analog ground pins |
AIN_1GND | 50 | AI | Analog input channel 1: negative input. |
AIN_1P | 49 | AI | Analog input channel 1: positive input. |
AIN_2GND | 52 | AI | Analog input channel 2: negative input. |
AIN_2P | 51 | AI | Analog input channel 2: positive input. |
AIN_3GND | 54 | AI | Analog input channel 3: negative input. |
AIN_3P | 53 | AI | Analog input channel 3: positive input. |
AIN_4GND | 56 | AI | Analog input channel 4: negative input. |
AIN_4P | 55 | AI | Analog input channel 4: positive input. |
AIN_5GND | 58 | AI | Analog input channel 5: negative input. |
AIN_5P | 57 | AI | Analog input channel 5: positive input. |
AIN_6GND | 60 | AI | Analog input channel 6: negative input. |
AIN_6P | 59 | AI | Analog input channel 6: positive input. |
AIN_7GND | 62 | AI | Analog input channel 7: negative input. |
AIN_7P | 61 | AI | Analog input channel 7: positive input. |
AIN_8GND | 64 | AI | Analog input channel 8: negative input. |
AIN_8P | 63 | AI | Analog input channel 8: positive input. |
AVDD | 1, 37, 38, 48 | P | Analog supply pins. Decouple these pins to the closest AGND pins
(see the Power Supply Recommendations section). |
BUSY | 14 | DO | Active high digital output indicating ongoing conversion (see the BUSY (Output) section). |
CONVSTA | 9 | DI | Active high logic input to control start of conversion for first half count of device input channels (see the CONVSTA, CONVSTB (Input) section). |
CONVSTB | 10 | DI | Active high logic input to control start of conversion for second half count of device input channels (see the CONVSTA, CONVSTB (Input) section). |
CS | 13 | DI | Active low logic input chip-select signal (see the CS (Input) section). |
DB0 | 16 | DO | Data output DB0 (LSB) in parallel interface mode (see the DB[6:0] section). |
DB1 | 17 | DO | Data output DB1 in parallel interface mode (see the DB[6:0] section). |
DB2 | 18 | DO | Data output DB2 in parallel interface mode (see the DB[6:0] section). |
DB3 | 19 | DO | Data output DB3 in parallel interface mode (see the DB[6:0] section). |
DB4 | 20 | DO | Data output DB4 in parallel interface mode (see the DB[6:0] section). |
DB5 | 21 | DO | Data output DB5 in parallel interface mode (see the DB[6:0] section). |
DB6 | 22 | DO | Data output DB6 in parallel interface mode (see the DB[6:0] section). |
DB7/DOUTA | 24 | DO | Multifunction logic output pin (see the DB7/DOUTA section): this pin is data output DB7 in parallel and parallel byte interface mode; this pin is a data output pin in serial interface mode. |
DB8/DOUTB | 25 | DO | Multifunction logic output pin (see the DB8/DOUTB section): this pin is data output DB8 in parallel interface mode; this pin is a data output pin in serial interface mode. |
DB9 | 27 | DO | Data output DB9 in parallel interface mode (see the DB[13:9] section). |
DB10 | 28 | DO | Data output DB10 in parallel interface mode (see the DB[13:9] section). |
DB11 | 29 | DO | Data output DB11 in parallel interface mode (see the DB[13:9] section). |
DB12 | 30 | DO | Data output DB12 in parallel interface mode (see the DB[13:9] section). |
DB13 | 31 | DO | Data output DB13 in parallel interface mode (see the DB[13:9] section). |
DB14 | 32 | DO | Multifunction logic input or output pin (see the DB14/HBEN section): this pin is data output DB14 in parallel interface mode; this pin is a control input pin for byte selection (high or low) in parallel byte interface mode. |
DB15 | 33 | DO | Multifunction logic input or output pin (see the DB14/HBEN section): this pin is data output DB14 in parallel interface mode; this pin is a control input pin for byte selection (high or low) in parallel byte interface mode. |
DVDD | 23 | P | Digital supply pin; decouple with AGND on pin 26. |
FRSTDATA | 15 | DO | Active high digital output indicating data read back from channel 1 of the devices (see the FRSTDATA (Output) section). |
OS0 | 3 | DI | Oversampling mode control pin (see the Oversampling Mode of Operation section). |
OS1 | 4 | DI | Oversampling mode control pin (see the Oversampling Mode of Operation section). |
OS2 | 5 | DI | Oversampling mode control pin (see the Oversampling Mode of Operation section). |
PAR/SER/BYTE SEL | 6 | DI | Logic input pin to select between parallel or serial or parallel byte interface mode (see the Data Read Operation section). |
RANGE | 8 | DI | Multifunction logic input pin (see the RANGE (Input) section): when the STBY pin is high, this pin selects the input range of the device (±10 V or ±5 V); when the STBY pin is low, this pin selects between the standby and shutdown modes. |
RD/SCLK | 12 | DI | Multifunction logic input pin (see the RD/SCLK (Input) section): this pin is an active-low ready input pin in parallel and parallel byte interface; this pin is a clock input pin in serial interface mode. |
REFCAPA | 44 | AO | Reference amplifier output pins. This pin must be shorted to REFCAPB and decoupled to AGND using a low ESR, 22-µF ceramic capacitor. |
REFCAPB | 45 | AO | Reference amplifier output pins. This pin must be shorted to REFCAPA and decoupled to AGND using a low ESR, 22-µF ceramic capacitor. |
REFGND | 43, 46 | P | Reference GND pin. This pin must be shorted to the analog GND plane and decoupled with REFIN/REFOUT on pin 42 using a 10-µF capacitor. |
REFIN/REFOUT | 42 | AIO | This pin acts as an internal reference output when REFSEL is
high; this pin functions as an input pin for the external reference when REFSEL is low; decouple with REFGND on pin 43 using a 10-µF capacitor. |
REFSEL | 34 | DI | Active high logic input to enable the internal reference (see the REFSEL (Input) section). |
REGCAP1 | 36 | AO | Output pin 1 for the internal voltage regulator; decouple separately to AGND using a 1-µF capacitor. |
REGCAP2 | 39 | AO | Output pin 2 for the internal voltage regulator; decouple separately to AGND using a 1-µF capacitor. |
RESET | 11 | DI | Active high logic input to reset the device digital logic (see the REFSEL (Input) section). |
STBY | 7 | DI | Active low logic input to enter the device into one of the two power-down modes: standby or shutdown (see the Power-Down Modes section). |