PGA309-HT Series

Voltage Output Programmable Sensor Conditioner, PGA309-HT

Catalog

Voltage Output Programmable Sensor Conditioner, PGA309-HT

Part	Input Type	Type	Supplier Device Package	Current - Supply	Mounting Type	Operating Temperature [Min]	Operating Temperature [Max]	Package / Case [x]	Package / Case	Package / Case [y]
Texas Instruments PGA309ASPWT	Logic	Signal Conditioner	16-TSSOP	1.2 mA	Surface Mount	-55 °C	150 °C	0.173 in	16-TSSOP	4.4 mm
Texas Instruments PGA309AIPWTG4	Logic	Signal Conditioner	16-TSSOP	1.2 mA	Surface Mount	-40 °C	125 °C	0.173 in	16-TSSOP	4.4 mm
Texas Instruments PGA309AIPWR	Logic	Signal Conditioner	16-TSSOP	1.2 mA	Surface Mount	-40 °C	125 °C	0.173 in	16-TSSOP	4.4 mm
Texas Instruments PGA309AIPWT	Logic	Signal Conditioner	16-TSSOP	1.2 mA	Surface Mount	-40 °C	125 °C	0.173 in	16-TSSOP	4.4 mm

Catalog

Voltage Output Programmable Sensor Conditioner, PGA309-HT

Key Features

• Complete Bridge Sensor ConditionerVoltage Output: Ratiometric or AbsoluteDigital Cal: No Potentiometers/Sensor TrimsSensor Error CompensationSpan, Offset, and Temperature DriftsLow Error, Time-StableSensor Linearization CircuitryTemperature Sense: Internal or ExternalCalibration Lookup Table LogicUses External EEPROM (SOT23-5)Over/Under-Scale LimitingSensor Fault Detection+2.7V TO +5.5V Operation–40°C to +125°C OperationSmall TSSOP-16 PackageAPPLICATIONSBridge SensorsRemote 4-20mA TransmittersStrain, Load, and Weigh ScalesAutomotive SensorsAPPLICATIONSHardware Designer’s Kit (PGA309EVM)Temperature Eval of PGA309 + SensorFull Programming of PGA309Sensor Compensation Analysis ToolAll other trademarks are the property of their respective owners.Complete Bridge Sensor ConditionerVoltage Output: Ratiometric or AbsoluteDigital Cal: No Potentiometers/Sensor TrimsSensor Error CompensationSpan, Offset, and Temperature DriftsLow Error, Time-StableSensor Linearization CircuitryTemperature Sense: Internal or ExternalCalibration Lookup Table LogicUses External EEPROM (SOT23-5)Over/Under-Scale LimitingSensor Fault Detection+2.7V TO +5.5V Operation–40°C to +125°C OperationSmall TSSOP-16 PackageAPPLICATIONSBridge SensorsRemote 4-20mA TransmittersStrain, Load, and Weigh ScalesAutomotive SensorsAPPLICATIONSHardware Designer’s Kit (PGA309EVM)Temperature Eval of PGA309 + SensorFull Programming of PGA309Sensor Compensation Analysis ToolAll other trademarks are the property of their respective owners.

Description

The PGA309 is a programmable analog signal conditioner designed for bridge sensors. The analog signal path amplifies the sensor signal and provides digital calibration for zero, span, zero drift, span drift, and sensor linearization errors with applied stress (pressure, strain, etc.). The calibration is done via a One-Wire digital serial interface or through a Two-Wire industry-standard connection. The calibration parameters are stored in external nonvolatile memory (typically SOT23-5) to eliminate manual trimming and achieve long-term stability. The all-analog signal path contains a 2x2 input multiplexer (mux), auto-zero programmable-gain instrumentation amplifier, linearization circuit, voltage reference, internal oscillator, control logic, and an output amplifier. Programmable level shifting compensates for sensor dc offsets. The core of the PGA309 is the precision, low-drift, no 1/f noise Front-End PGA (Programmable Gain Amplifier). The overall gain of the Front-End PGA + Output Amplifier can be adjusted from 2.7V/V to 1152V/V. The polarity of the inputs can be switched through the input mux to accommodate sensors with unknown polarity output. The Fault Monitor circuit detects and signals sensor burnout, overload, and system fault conditions. For reference application information, see the commercial device PGA309 User's Guide (SBOU024) available for download atwww.ti.com. The PGA309 is a programmable analog signal conditioner designed for bridge sensors. The analog signal path amplifies the sensor signal and provides digital calibration for zero, span, zero drift, span drift, and sensor linearization errors with applied stress (pressure, strain, etc.). The calibration is done via a One-Wire digital serial interface or through a Two-Wire industry-standard connection. The calibration parameters are stored in external nonvolatile memory (typically SOT23-5) to eliminate manual trimming and achieve long-term stability. The all-analog signal path contains a 2x2 input multiplexer (mux), auto-zero programmable-gain instrumentation amplifier, linearization circuit, voltage reference, internal oscillator, control logic, and an output amplifier. Programmable level shifting compensates for sensor dc offsets. The core of the PGA309 is the precision, low-drift, no 1/f noise Front-End PGA (Programmable Gain Amplifier). The overall gain of the Front-End PGA + Output Amplifier can be adjusted from 2.7V/V to 1152V/V. The polarity of the inputs can be switched through the input mux to accommodate sensors with unknown polarity output. The Fault Monitor circuit detects and signals sensor burnout, overload, and system fault conditions. For reference application information, see the commercial device PGA309 User's Guide (SBOU024) available for download atwww.ti.com.