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Description

The TIDA-00914 reference design realizes a reinforced isolated 3-phase inverter sub-system using isolated IGBT gate drivers and isolated current/voltage sensors. Precise in-line shunt based motor phase current sensing is done with AMC1306E25 delta sigma modulators. The modulator output is Manchester (...)

Key Features

  • Simplified clock routing to delta sigma modulators due to Manchester encoded data output
  • Small pin count (8) enables compact solution
  • High CMTI of modulator (>50 kV/us) improves noise immunity to switching transients
  • Short circuit response time of less than 1.5 µs
  • Calibrated full scale accuracy of (...)

Description

The TIDA-00929 TI design demonstrates bandwidth optimized analog front end (AFE) and real-time FIR implementation using low power to capture broadband frequency spectrum in any waveform. Operational amplifier in each signal path is chosen based on the gain, signal bandwidth, low noise, close to the (...)

Key Features

  • Analog Front End (AFE) for effective passing both low frequency and high frequency while suppressing signal noise
  • Capturing frequency content up to 100kHz in frequency domain by sampling the signal using 12-bit SAR ADC at 200ksps and performing real-time FIR filter in MSP430 using low energy (...)

Description

C2000 Position Manager technology offers an integrated solution to interface to digital absolute encoders as well as resolvers and SINCOS transducers eliminating the need for commonly used additional circuits in industrial inverter and servo drives. The PositionManager BoosterPack, described by (...)

Key Features

  • Flexible low voltage design supports multiple absolute encoder interfaces as well as Resolver and SINCOS sensors
  • TIDA-1008 works with C2000 Position Manager-ready MCUs (via LaunchPad) for Integrated EnDat2.2 and EnDat 2.1 digital protocol solution
  • Easy interface to EnDat2.2 commands via software (...)

Description

This dual output reference design provides an example of how to power FPGAs, ASICs, or MCUs when space-constraints are a primary concern. The wide 6-V to 60-V input voltage range and the use of ultra-small and highly efficient DC/DC converters makes the design well suited for applications like (...)

Key Features

  • Operates over a wide input voltage from 6 V to 60 V with transient protection up to 66 V
  • Dual Outputs: 5 V at 300 mA, 1.5 V at 1 A
  • Small Solution Size (9.25 mm x 18 mm)
  • Scalable for Industrial Power Supplies 
  • Peak System Efficiency > 90%

Design Parameters

 
 
Vin (V) (Min)
Vin (V) (Min)
Vin (V) (Max)
Vin (V) (Max)
Vout (V) (Nom)
Vout (V) (Nom)
Iout (A) (Max)
Iout (A) (Max)
Output Power (W)
Output Power (W)
Isolated/Non-Isolated
Isolated/Non-Isolated
Input Type
Input Type
Topology
Topology
Designed for
Designed for
PMP15039.1
(Output Voltage 1)
6 60 5 .3 1.5 Non-Isolated DC Buck- Synchronous
PMP15039.2
(Output Voltage 2)
6 60 1.5 1 1.5 Non-Isolated DC Buck- Synchronous

Description

This reference design provides customers with a comparison study on the usage of GaN vs SI in power supply designs. This specific design uses TPS40400 controller to drive CSD87381 for the silicon power supply and LMG1210 with EPC2111 for the GaN power supply to provide 0.8V/10A. This design compares (...)

Key Features

  • PMBus programmable OPC, UVLO, OV, switching frequency, and soft start
  • Deadtime adjustment through pin strapping on LMG1210
  • Power board and daughter card impelemtatation
  • Optimizing deadtime showed 5% increase in GaN efficiency

Design Parameters

 
 
Vin (V) (Min)
Vin (V) (Min)
Vin (V) (Max)
Vin (V) (Max)
Vout (V) (Nom)
Vout (V) (Nom)
Iout (A) (Max)
Iout (A) (Max)
Output Power (W)
Output Power (W)
Isolated/Non-Isolated
Isolated/Non-Isolated
Input Type
Input Type
Topology
Topology
Designed for
Designed for
PMP21440.1
(Output Voltage 1)
6 8.4 .8 10 8 Non-Isolated DC Buck- Synchronous
PMP21440.2
(Output Voltage 2)
6 8.4 .8 10 8 Non-Isolated DC Buck- Synchronous

Description

The 0.23 qHD DLP chipset is an affordable platform enabling the use of DLP technology with embedded host processor. This chipset is incorporated in to this reference design to enable a low power, on-demand free-form sub-system display for a variety of applications.

Key Features

  • Display sub-system DLP230GP (qHD resolution)
  • Compact PCB Layout supporting qHD (DLP230GP) Optical Engine and including HDMI and USB connectivity
  • 19-V Input and LED current drive up to 6A

Description

This TI reference design provides a low-component count, low-cost solution for 4- to 20-mA loop-powered, resistance-temperature detector (RTD), temperature transmitter. The design takes advantage of the on-chip Smart Analog Combo module in the MSP430FR2355 MCU to control the loop current, so  (...)

Key Features

  • Sensor Input Compatible with 2-, 3- or 4-Wire Resistance Temperature Detector (RTD) Probes
  • Temperature range for RTD of –200°C to 850°C
  • Maximum Measured Error: <1°C
  • IEC61000-4-2: ESD: Air Discharge: ±8 kV Class A
  • Small Form Factor (L × W): 60mm × 8mm
  • Operating Temperature Range -40°C to 105°C

Description

The PMP15016 reference design is a 5V/3A output power supply using the LMR23630 DC/DC buck regulator IC. This design uses a 4-layer board and is intended for industrial applications with a 24V input bus. LMR23630 is a 4.0V to 36V input, 3A output capable, and 400 kHz fixed synchronous buck (...)

Key Features

  • Wide 9V to 36V input voltage range for nominal 24V input bus, 5V/3A output
  • Compliant with both CISPR-22 Class-B conducted and radiated emissions standards with 10dB+ margin    
  • Peak current mode control, OCP function, inductor saturation protection
  • Easy to use 8-pin SOIC package

Design Parameters

 
 
Vin (V) (Min)
Vin (V) (Min)
Vin (V) (Max)
Vin (V) (Max)
Vout (V) (Nom)
Vout (V) (Nom)
Iout (A) (Max)
Iout (A) (Max)
Output Power (W)
Output Power (W)
Isolated/Non-Isolated
Isolated/Non-Isolated
Input Type
Input Type
Topology
Topology
Designed for
Designed for
PMP15016.1
(Output
Voltage1)
9 36 5 3 15 Non-Isolated DC Buck- Synchronous

Description

The TIDA-01480 reference design is a scalable power supply designed to provide power to the Xilinx Zynq UltraScale+ (ZU+) family of MPSoC devices. The design receives power from a standard DC power supply and provides power to all rails of the Xilinx chipset and DDR memory through a well-defined (...)

Key Features

  • 17 hardware configurable power rails
  • Easy to change any output voltage in hardware
  • Only 1 input voltage required
  • Ideal power supply for the following Xilinx products: Zynq Ultrascale_ MPSoCs (ZU2CG, ZU3CG, ZU4CG, ZU5CG, ZU2EG, ZU3EG, ZU4EG, ZU5EG, ZU4EV, ZU5EV)
  • Small 3.5" x 2.5" PCB for use as a (...)

Design Parameters

 
 
Vin (V) (Min)
Vin (V) (Min)
Vin (V) (Max)
Vin (V) (Max)
Vout (V) (Nom)
Vout (V) (Nom)
Iout (A) (Max)
Iout (A) (Max)
Output Power (W)
Output Power (W)
Isolated/Non-Isolated
Isolated/Non-Isolated
Input Type
Input Type
Topology
Topology
Designed for
Designed for
TIDA-01480.1
(Output Voltage 1)
4.3 6 .9 12 10.8 Non-Isolated DC Buck- Synchronous
TIDA-01480.2
(Output Voltage 2)
4.3 6 .9 8 7.2 Non-Isolated DC Buck- Synchronous
TIDA-01480.3
(Output Voltage 3)
4.3 6 1.35 2 2.7 Non-Isolated DC Buck- Synchronous
TIDA-01480.4
(Output Voltage 4)
4.3 6 1.2 1.7 2.04 Non-Isolated DC Buck- Synchronous
TIDA-01480.5
(Output Voltage 5)
4.3 6 1.8 1.2 2.16 Non-Isolated DC Buck- Synchronous
TIDA-01480.6
(Output Voltage 6)
4.3 6 3.3 1 3.3 Non-Isolated DC Buck- Synchronous
TIDA-01480.7
(Output Voltage 7)
4.3 6 1.8 .2 .36 Non-Isolated DC Linear Regulator
TIDA-01480.8
(Output Voltage 8)
4.3 6 3.3 .2 .66 Non-Isolated DC Linear Regulator
TIDA-01480.9
(Output Voltage 9)
4.3 6 .9 1.7 1.53 Non-Isolated DC Buck- Synchronous
TIDA-01480.10
(Output Voltage 10)
4.3 6 1.8 1.2 2.16 Non-Isolated DC Buck- Synchronous
TIDA-01480.11
(Output Voltage 11)
4.3 6 .85 1 .85 Non-Isolated DC Buck- Synchronous
TIDA-01480.12
(Output Voltage 12)
4.3 6 1.8 .2 .36 Non-Isolated DC Linear Regulator
TIDA-01480.13
(Output Voltage 13)
4.3 6 3.3 .2 .66 Non-Isolated DC Linear Regulator
TIDA-01480.14
(Output Voltage 14)
4.3 6 .675 2 1.35 Non-Isolated DC Other
TIDA-01480.15
(Output Voltage 15)
4.3 6 .9 4 3.6 Non-Isolated DC Other
TIDA-01480.16
(Output Voltage 16)
4.3 6 1.2 1.7 2.04 Non-Isolated DC Other
TIDA-01480.17
(Output Voltage 17)
4.3 6 1.8 1.2 2.16 Non-Isolated DC Other

Description

Industrial vibration sensing is crucial part in condition monitoring necessary for predictive maintenance. Integrated Electronic Piezoelectric (IEPE) sensor is the most common vibration sensor used in industrial environment. This design is a full analog front-end for IEPE sensor interface (...)

Key Features

  • Single channel IEPE sensor analog input
  • 24-bits conversion resolution
  • Programmable data rate: 265 kSPS to 32kSPS
  • 20 kHz bandwidth signal bandwidth
  • ±10V AC input, 250 kΩ input impedance

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