ZHCS114E march 2011 – february 2023 ADS4222 , ADS4225 , ADS4226 , ADS4242 , ADS4245 , ADS4246
PRODUCTION DATA
PIN | TYPE | DESCRIPTION | ||
---|---|---|---|---|
NAME | ADS4246, 45,42 | ADS4226, 25, 22 | ||
AGND | 17, 18, 21, 24, 27, 28, 31, 32 | 17, 18, 21, 24, 27, 28, 31, 32 | Input | Analog ground |
AVDD | 16, 22, 33, 34 | 16, 22, 33, 34 | Input | Analog power supply |
CLKM | 26 | 26 | Input | Differential clock negative input |
CLKOUTM | 56 | 56 | Output | Differential output clock, complement |
CLKOUTP | 57 | 57 | Output | Differential output clock, true |
CLKP | 25 | 25 | Input | Differential clock positive input |
CTRL1 | 35 | 35 | Input | Digital control input pins. Together, they control the various power-down modes. |
CTRL2 | 36 | 36 | Input | Digital control input pins. Together, they control the various power-down modes. |
CTRL3 | 37 | 37 | Input | Digital control input pins. Together, they control the various power-down modes. |
DA0P | 41 | 43 | Output | Channel A differential output data pair, D0 and D1 multiplexed |
DA0M | 40 | 42 | Output | Channel A differential output data pair, D0 and D1 multiplexed |
DA2P | 43 | 45 | Output | Channel A differential output data D2 and D3 multiplexed |
DA2M | 42 | 44 | Output | Channel A differential output data D2 and D3 multiplexed |
DA4P | 45 | 47 | Output | Channel A differential output data D4 and D5 multiplexed |
DA4M | 44 | 46 | Output | Channel A differential output data D4 and D5 multiplexed |
DA6P | 47 | 51 | Output | Channel A differential output data D6 and D7 multiplexed |
DA6M | 46 | 50 | Output | Channel A differential output data D6 and D7 multiplexed |
DA8P | 51 | 53 | Output | Channel A differential output data D8 and D9 multiplexed |
DA8M | 50 | 52 | Output | Channel A differential output data D8 and D9 multiplexed |
DA10P | 53 | 55 | Output | Channel A differential output data D10 and D11 multiplexed |
DA10M | 52 | 54 | Output | Channel A differential output data D10 and D11 multiplexed |
DA12M | 54 | -- | Output | Channel A differential output data D12 and D13 multiplexed (ADS424x only) |
DA12P | 55 | -- | Output | Channel A differential output data D12 and D13 multiplexed (ADS424x only) |
DB0P | 61 | 63 | Output | Channel B differential output data pair, D0 and D1 multiplexed |
DB0M | 60 | 62 | Output | Channel B differential output data pair, D0 and D1 multiplexed |
DB2P | 63 | 3 | Output | Channel B differential output data D2 and D3 multiplexed |
DB2M | 62 | 2 | Output | Channel B differential output data D2 and D3 multiplexed |
DB4P | 3 | 5 | Output | Channel B differential output data D4 and D5 multiplexed |
DB4M | 2 | 4 | Output | Channel B differential output data D4 and D5 multiplexed |
DB6P | 5 | 7 | Output | Channel B differential output data D6 and D7 multiplexed |
DB6M | 4 | 6 | Output | Channel B differential output data D6 and D7 multiplexed |
DB8P | 7 | 9 | Output | Channel B differential output data D8 and D9 multiplexed |
DB8M | 6 | 8 | Output | Channel B differential output data D8 and D9 multiplexed |
DB10P | 9 | 11 | Output | Channel B differential output data D10 and D11 multiplexed |
DB10M | 8 | 10 | Output | Channel B differential output data D10 and D11 multiplexed |
DB12P | 11 | -- | Output | Channel B differential output data D12 and D13 multiplexed (ADS424x only) |
DB12M | 10 | -- | Output | Channel B differential output data D12 and D13 multiplexed (ADS424x only) |
DRGND | 49, PAD | 49, PAD | Input | Output buffer ground. The Thermal PAD is connected to DRGND |
DRVDD | 1, 48 | 1, 48 | Input | Output buffer supply |
INM_A | 30 | 30 | Input | Differential analog negative input, channel A |
INM_B | 20 | 20 | Input | Differential analog negative input, channel B |
INP_A | 29 | 29 | Input | Differential analog positive input, channel A |
INP_B | 19 | 19 | Input | Differential analog positive input, channel B |
NC | 38, 39, 58,
59 Refer to Figure 7-28, Figure 7-29, and Figure 7-45 |
38, 39, 40, 41, 58, 59, 60, 61 | — | Do not connect, must be floated |
RESET | 12 | 12 | Input | Serial
interface RESET input. When using the serial interface mode, the internal registers must be initialized through a hardware RESET by applying a high pulse on this pin or by using the software reset option; refer to the Serial Interface Configuration section. In parallel interface mode, the RESET pin must be permanently tied high. SCLK and SEN are used as parallel control pins in this mode. This pin has an internal 150-kΩ pulldown resistor. |
SCLK | 13 | 13 | Input | This pin functions as a serial interface clock input when RESET is low. It controls the low-speed mode selection when RESET is tied high; see Table 8-6 for detailed information. This pin has an internal 150-kΩ pulldown resistor. |
SDATA | 14 | 14 | Input | Serial interface data input; this pin has an internal 150-kΩ pulldown resistor. |
SDOUT | 64 | 64 | Output | This pin functions as a serial interface register readout when the READOUT bit is enabled. When READOUT = 0, this pin is in high-impedance state. |
SEN | 15 | 15 | Input | This pin functions as a serial interface enable input when RESET is low. It controls the output interface and data format selection when RESET is tied high; see Table 8-7 for detailed information. This pin has an internal 150-kΩ pullup resistor to AVDD. |
VCM | 23 | 23 | Output | This pin outputs the common-mode voltage (0.95 V) that can be used externally to bias the analog input pins |