Isolated amplifiers
High-performance isolated amplifiers for high-voltage systems
Isolated current and voltage sensing amplifiers
Increase system accuracy and reduce board space with our integrated high-voltage resistors
Our isolated integrated high-voltage resistors integrate the high-voltage resistor ladder and isolated amp into one package.
Benefits:
• Low temperature and lifetime drift compared to discrete resistors, enabling voltage measurements with accuracy errors <1% without the calibration external resistors require.
• Removing need for up to 15 external high-voltage resistors lowers system-level costs and reduces solution size by up to 50%.
• High-voltage resistor ratios for industry standard voltage levels such as ±400VAC and 600V/1000VDC.
• Single-ended ratiometric output for reducing BOM and solution cost and differential output for greater noise immunity.
• Lower manufacturing time and costs by eliminating the need for system-level calibration.
Increased Accuracy and Performance with Integrated High Voltage Resistor Isolated Amplifiers and Modulators (Rev. A)
Maximizing Power Conversion and Motor Control Efficiency With Isolated Voltage Sensing (Rev. A)
Featured products for high-voltage resitors
Eliminate the need for an external high-side supply with our single-supply isolated converters
Our isolated single-supply devices integrate an DC/DC converter that enables single-supply operation from the low side of the device.
Benefits:
• Measuring non-ground-referenced signals such as phase-to-phase measurements creates a novel solution for noisy, space-constrained applications.
• Removing the external high-side supply helps simplify designs and reduce board space and cost.
Solutions for both isolated voltage sensing and isolated shunt-based current sensing.
AFE for Insulation Monitoring in High-Voltage EV Charging and Solar Energy Reference Design
Utilizing AMC3311 to Power AMC23C11 for Isolated Sensing and Fault Detection
Evaluation module for ±50A AMCxx amplifier
Featured products for integrated power
Remove the need for external components by directly interfacing with your MCU
Our isolated voltage-sensing devices have two single-ended output options: fixed gain and ratiometric (variable) gain.
Benefits:
• Fixed-gain and ratiometric single-ended output devices integrate the differential to single-ended operational amplifier, reducing solution size and system costs and enabling direct interfacing with the microcontroller (MCU).
• Ratiometric single-ended output devices can vary the output swing of the isolated voltage-sensing amplifier to match the full scale range of the analog-to-digital converter (ADC) inside the MCU, increasing measurement resolution and allowing for the full use of the ADC's dynamic range.
Solutions for both isolated voltage sensing and isolated shunt-based current sensing.
Isolated Amplifiers With Differential, Single-Ended Fixed Gain and Ratiometric Outputs for Voltage Sensing App
Maximizing Power Conversion and Motor Control Efficiency With Isolated Voltage Sensing (Rev. A)
Featured products for single-ended output
Explore our extensive isolated amplifier portfolio
Our isolated sensing amplifiers have differential output option.
Benefits:
• High signal integrity in noisy environments and long trace lengths.
• High common-mode transient immunity for reliable operation.
• Multisource solutions.
Solutions for both isolated voltage sensing and isolated shunt-based current sensing.
Isolated Current-Sensing Circuit W/ ±250-mV Input Range & Single-Ended Output
An Engineer's Guide to Isolated Signal Chain Solutions
Comparing Isolated Amplifiers and Isolated Modulators (Rev. B)
Featured products for differential output
Choose between amplifiers and modulators with functional, basic and reinforced isolation
Our isolated amplifier devices are available in three isolation ratings: functional, basic and reinforced.
Benefits:
• Functional isolation devices support 1mm of creepage and clearance and a 200VRMS working voltage.
• Basic isolation devices support 4mm creepage and clearance and a 800VRMS working voltage.
• Reinforced isolation devices support 8.5mm creepage and clearance and 1,500VRMS working voltage.
• Wide-body package-reinforced isolation devices support 15.7mm creepage and 14.7mm clearance with a 2,000VRMS working voltage.
Solutions for both isolated voltage sensing and isolated shunt-based current sensing.
TI's First Isolated Amplifiers With Ultra-Wide Creepage and Clearance
Understanding isolation terminology and relevance
Featured products for multiple isolation ratings
Discover featured applications
Maximize electric vehicle (EV) and powertrain system performance and reliability, optimize cost, and maintain power efficiency with our high-precision isolated modulators
Our isolated converters help optimize and protect automotive applications, with solutions for powertrain sensors, DC/DC converters, battery management systems and more. Use our broad family of isolation products to enhance flexibility and optimize your design cost.
Benefits:
- Enables lower-power designs.
- Simplifies processor-to-peripheral interface designs.
- Enables a wider selection of peripheral devices.
Featured resources
- TIDA-020014 – HEV/EV traction inverter power stage with 3 types of IGBT/SiC bias-supply solutions reference design
- TIDM-02009 – ASIL D safety concept-assessed high-speed traction, bi-directional DC/DC conversion reference design
- TIDM-02002 – Bidirectional CLLLC resonant dual active bridge (DAB) reference design for HEV/EV onboard charger
- AMC1311-Q1 – Automotive, 2-V input, precision voltage sensing reinforced isolated amplifier
- AMC3330-Q1 – Automotive, ±1-V input, precision voltage sensing reinforced isolated amplifier with int. DC/DC
- AMC1411 – 2-V input, precision voltage sensing reinforced isolated amplifier with high CMTI
Maximize motor and power efficiency, optimize system cost, and improve reliability using TI isolated modulators and amplifiers
Our isolation technology in AC drives, servo drives and more helps you develop motor-drive applications with high reliability, long life spans and superior voltage ratings.
Featured resources
- TIDA-01349 – IPM Interface Reference Design for Inverters Using Single Package Six Channel Digital Isolator
- Isolated Voltage Sensing in AC Motor Drives – Analog Design Journal
- Comparing Isolated Amplifiers and Isolated Modulators (Rev. B) – White paper
Maximize power efficiency, optimize system cost and improve reliability in power delivery systems using TI isolation technology
Our isolation technology – including both reinforced and nonreinforced isolation products – enables you to design power delivery applications with high reliability, increased safety and high resistance to magnetic interference.
Featured resources
- TIDA-01540 – Three-Phase Inverter Reference Design Using Gate Driver With Built-in Dead Time Insertion
- TIDA-010065 – High-efficiency, low-emission, isolated DC/DC converter-based analog input module reference design
- TIDA-00851 – Single-Chip, loop-powered 4-20mA RTD Sensor Transmitter Reference Design
Maximize performance and reliability and maintain power efficiency in string inverter and energy storage devices with our high-precision isolated modulators and amplifiers
Our isolated converters help optimize and protect electric vehicle applications, with flexible solutions for battery energy storage systems, single- and three-phase string inverters, and more.
Featured resources
- TIDA-010054 – Bi-directional, dual active bridge reference design for level 3 electric vehicle charging stations
Maximize performance and reliability, optimize cost, and maintain power efficiency in electric vehicle (EV) charging infrastructures with high-precision isolated modulators and amplifiers
Our isolated converters help optimize and protect EV applications, with flexible solutions for current and voltage sensing, AC charging, DC charging and more.
Featured resources
- Four key design considerations when adding energy storage to solar power grids – White paper
- Design considerations for isolated current sensing (Rev. A) – Analog Design Journal