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Description

The TIDA-01003 reference design is a wide input voltage camera module that uses the 1MP ON Semiconductor® AS0140AT CMOS Imager to provide multiple uncompressed video formats over FPD-Link III. Supported video formats are 8- and 10-bit YUV422. TIs FPD-Link III SerDes technology enables the (...)

Key Features

  • Module outputs YUV422 720p up to 30fps
  • Power supply using wide input voltage switching converter to withstand short to battery condition
  • Single Rosenberger Fakra coax connector for digital video, power, control and diagnostics
  • Space optimized design fits on a single PCB 20 x 20mm

Description

Implementation of HIPERFACE DSL Master protocol on Industrial Communication Sub-System (PRU-ICSS). The two wire interface allows for integration of position feedback wires into motor cable.  Complete solution consists of AM437x PRU-ICSS firmware and TIDA-00177 transceiver reference design.

Key Features

  • Hiperface DSL master protocol with register compatible interface to existing FPGA IP core
  • Programmable approach using ICSS_L concurrently with DS filter and Industrial Ethernet (Single Chip Drive)
  • Internal and external sync pulse sources
  • Supports cable length of up to 100 meter
  • Line delay compensation
  • 8x (...)

Description

Implementation of BiSS C Master protocol on Industrial Communication Sub-System (PRU-ICSS). The design provides full documentation and source code for Programmable Realtime Unit (PRU).

Key Features

  • BiSS C Master protocol running on ICSS
  • Interface speed of 1, 2, 5 and 10 MHz
  • 8x oversampled input capture
  • Line delay compensation with filtered sample point
  • De-bouncing filter on oversampled input
  • Variable frame format with crc check
  • Command (CDS/CDM) interface
  • Supports up to 100 m cable
  • Runs on AM335x and (...)

Description

TI provides the system solution for Industrial Communication on Sitara™ processors with Programmable Real-Time Unit and Industrial Communication Subsystem (PRU-ICSS). PRU-ICSS allows custom firmware applications in the field of real-time applications. The I2C peripheral on many application (...)

Key Features

  • Supports I2C and SMbus master interface with PRU-ICSS
  • Dynamic block moe read and write transfer
  • Contains PRU-ICSS source code for customization
  • I2C register interface emulation

Description

This TI design implements a hardware interface solution based on the HEIDENHAIN EnDat 2.2 standard for position or rotary encoders. The platform also allows designers to implement real-time EtherCAT communications standards in a broad range of industrial automation equipment. It enables designers (...)

Key Features

  • Combining EtherCAT and EnDat provides the user with a single chip solution to bridge from motor control to higher level communications.
  • EtherCAT conformance tested by EtherCAT Technology Group (ETG)
  • The EnDat 2.2 interface improves the technical standard for motor control and reduces overall system (...)


Updated: 22 MAY 2017

Description

The TIDEP0050 TI Design implements the EnDat 2.2 Master protocol stack and hardware interface solution based on the HEIDENHAIN EnDat 2.2 standard for position or rotary encoders. The design is composed of the EnDat 2.2 Master protocol stack, half-duplex communications using RS485 transceivers and (...)

Key Features

  • This TI Design enables developers to use EnDat 2.2 encoder interlaces to implement low foot print, low power single chip solutions in applications such as industrial automation and factory automation.
  • The EnDat 2.2 interface is technical standard for direct drive technology thanks to its high (...)

Description

PMP10725 is an isolated flyback solution which accepts an input voltage of 15 to 36VIN and provides multiport output to the load. This reference design compares primary and secondary control solutions. With primary control, it can achieve higher efficiency with lower BOM cost, but the regulation (...)

Key Features

  • Multiport isolated output
  • Primary control with low BOM cost
  • Secondary control with great regulation performance
  • Peak current mode control
  • Flexible for other isolate application

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
PMP10725.1
(Output Voltage 1)
9 16 24 .5 12 Isolated DC Flyback- Non Sync
PMP10725.2
(Output Voltage 2)
9 16 6 .1 .6 Isolated DC Flyback- Non Sync
PMP10725.3
(Output Voltage 3)
9 16 6 .1 .6 Isolated DC Flyback- Non Sync

Description

The bq25892 is a highly-integrated switch-mode battery charge management and system power path management device for single cell Li-Ion and Li-polymer battery in a wide range of smartphone and other portable devices with USB or high voltage adaptors. Its low impedance power path optimizes (...)

Key Features

 

  • Support high voltage adaptor to achieve up to 5A chargeing current
  • Highly integrated solution with the highest efficiency
  • Input Current Optimizer (ICO) to best utilize the adaptor
  • ADC to provide system and battery monitoringBoth host control and autonomous charging when the host is not available
  • (...)

Description

The PMP4442 reference design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support (...)

Key Features

  • Wide input voltage range: off battery 6V to 42V power supply to support start-stop system and load dump
  • The DCDC regulator all run at 2MHz to avoid AM band interference and very small form factor
  • No sequencer is needed since I.MX6 is very loose on the power rails sequencing
  • First stage wide Vin async (...)

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
PMP4442.1
(Output Voltage 1)
6 42 1.5 3 4.5 Non-Isolated DC Buck- Synchronous
PMP4442.2
(Output Voltage 2)
6 42 1.425 4 5.7 Non-Isolated DC Buck- Synchronous
PMP4442.3
(Output Voltage 3)
6 42 3.3 1.5 4.95 Non-Isolated DC Buck- Synchronous
PMP4442.4
(Output Voltage 4)
6 42 1.8 1 1.8 Non-Isolated DC Buck- Synchronous
PMP4442.5
(Output Voltage 5)
6 42 3.33 .15 .4995 Non-Isolated DC Linear Regulator

Description

The TIDA-01069 design is an analog front-end for an advanced motion detector based on two PIR sensors for false trigger avoidance, enabling machine learning. This TI Design has a standard BoosterPack™ pinout, uses Texas Instruments low-power components, and runs on one AAA alkaline battery cell.

Key Features

  • Two PIR sensors with separate area of detection
  • Sensitivity up to >30 feet (≈ 9 m)
  • Standard BoosterPack pinout
  • False detection avoidance
  • Battery based low-power design
  • Work with different MCUs and DSPs
  • Machine learning enabled

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