DAC532A3YBHR
Active10-BIT 300-MA CURRENT-SOURCE DAC WITH 10-BIT VOLTAGE-OUTPUT DAC, SUPERVISOR COMPARATOR, NVM AND GPI
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DAC532A3YBHR
Active10-BIT 300-MA CURRENT-SOURCE DAC WITH 10-BIT VOLTAGE-OUTPUT DAC, SUPERVISOR COMPARATOR, NVM AND GPI
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Technical Specifications
Parameters and characteristics for this part
| Specification | DAC532A3YBHR |
|---|---|
| Architecture | String DAC |
| Data Interface | SPI, I2C |
| Differential Output | False |
| INL/DNL (LSB) [Max] | 1 LSB, 1.25 LSB |
| INL/DNL (LSB) [Min] | -1.25 LSB, -1 LSB |
| Mounting Type | Surface Mount |
| Number of Bits | 10 |
| Operating Temperature [Max] | 125 °C |
| Operating Temperature [Min] | -40 °C |
| Output Type | Voltage or Current - Buffered |
| Package / Case | DSBGA, 16-XFBGA |
| Reference Type | Internal, Supply |
| Settling Time | 25 µs, 260 µs |
| Supplier Device Package | 16-DSBGA |
| Supplier Device Package [x] | 1.62 |
| Supplier Device Package [y] | 1.62 |
| Voltage - Supply, Analog [Max] | 5.5 V |
| Voltage - Supply, Analog [Min] | 3 V |
| Voltage - Supply, Digital [Max] | 5.5 V |
| Voltage - Supply, Digital [Min] | 3 V |
Pricing
Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly
DAC532A3W Series
10-bit 300-mA current-source DAC with 10-bit voltage-output DAC, supervisor comparator, NVM and GPI
| Part | Architecture | Voltage - Supply, Analog [Min] | Voltage - Supply, Analog [Max] | Output Type | Voltage - Supply, Digital [Max] | Voltage - Supply, Digital [Min] | Supplier Device Package [y] | Supplier Device Package | Supplier Device Package [x] | Reference Type | Number of Bits | INL/DNL (LSB) [Min] | INL/DNL (LSB) [Max] | Settling Time | Data Interface | Mounting Type | Differential Output | Operating Temperature [Max] | Operating Temperature [Min] | Package / Case |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Texas Instruments DAC532A3YBHRThe three-channel DAC532A3W and the dual-channel DAC530A2W ( DAC53xAxW) are 10-bit, buffered voltage-output and current-output smart digital-to-analog-converters (DAC). The DAC53xAxW devices support a current source that can be used for linear control of laser diodes and miniature motors. These devices support Hi-Z power-down mode and Hi-Z output during power-off conditions for voltage output. Channel 1 can be configured as a voltage-output DAC or a comparator. The voltage-output DACs provide a force-sense option for use as a programmable comparator and current sink. The multifunction GPIO, function generation, and programmable nonvolatile memory (NVM) enable these smart DACs for processor-less applications and design reuse. These devices automatically detect SPI or I 2C interfaces and contain an internal reference.
The DAC53xAxW feature set combined with the tiny package and low power make these smart DACs an excellent choice for applications such as laser diode power control and voice-coil motor (VCM) control in camera lens auto focus and zoom applications.
The three-channel DAC532A3W and the dual-channel DAC530A2W ( DAC53xAxW) are 10-bit, buffered voltage-output and current-output smart digital-to-analog-converters (DAC). The DAC53xAxW devices support a current source that can be used for linear control of laser diodes and miniature motors. These devices support Hi-Z power-down mode and Hi-Z output during power-off conditions for voltage output. Channel 1 can be configured as a voltage-output DAC or a comparator. The voltage-output DACs provide a force-sense option for use as a programmable comparator and current sink. The multifunction GPIO, function generation, and programmable nonvolatile memory (NVM) enable these smart DACs for processor-less applications and design reuse. These devices automatically detect SPI or I 2C interfaces and contain an internal reference.
The DAC53xAxW feature set combined with the tiny package and low power make these smart DACs an excellent choice for applications such as laser diode power control and voice-coil motor (VCM) control in camera lens auto focus and zoom applications. | String DAC | 3 V | 5.5 V | Voltage or Current - Buffered | 5.5 V | 3 V | 1.62 | 16-DSBGA | 1.62 | Internal, Supply | 10 | -1.25 LSB, -1 LSB | 1 LSB, 1.25 LSB | 25 µs, 260 µs | I2C, SPI | Surface Mount | 125 °C | -40 °C | 16-XFBGA, DSBGA |
Description
General part information
DAC532A3W Series
The three-channel DAC532A3W and the dual-channel DAC530A2W ( DAC53xAxW) are 10-bit, buffered voltage-output and current-output smart digital-to-analog-converters (DAC). The DAC53xAxW devices support a current source that can be used for linear control of laser diodes and miniature motors. These devices support Hi-Z power-down mode and Hi-Z output during power-off conditions for voltage output. Channel 1 can be configured as a voltage-output DAC or a comparator. The voltage-output DACs provide a force-sense option for use as a programmable comparator and current sink. The multifunction GPIO, function generation, and programmable nonvolatile memory (NVM) enable these smart DACs for processor-less applications and design reuse. These devices automatically detect SPI or I 2C interfaces and contain an internal reference.
The DAC53xAxW feature set combined with the tiny package and low power make these smart DACs an excellent choice for applications such as laser diode power control and voice-coil motor (VCM) control in camera lens auto focus and zoom applications.
The three-channel DAC532A3W and the dual-channel DAC530A2W ( DAC53xAxW) are 10-bit, buffered voltage-output and current-output smart digital-to-analog-converters (DAC). The DAC53xAxW devices support a current source that can be used for linear control of laser diodes and miniature motors. These devices support Hi-Z power-down mode and Hi-Z output during power-off conditions for voltage output. Channel 1 can be configured as a voltage-output DAC or a comparator. The voltage-output DACs provide a force-sense option for use as a programmable comparator and current sink. The multifunction GPIO, function generation, and programmable nonvolatile memory (NVM) enable these smart DACs for processor-less applications and design reuse. These devices automatically detect SPI or I 2C interfaces and contain an internal reference.