Multichannel RF transceiver clocking reference design for RADARs and wireless 5G testers

Analog front end for high-speed end equipments like phased-array radars, wireless communication testers, and electronic warfare require synchronized, multipletransceiver signal chains. Each transceiver signal chain includes high-speed, analog-to-digital converters (ADCs), digital-to-analog (...)
- TI Devices
- AFE7444
- TMUX1574
- TPS7A90
- LMX2594
- LMK61E2
- + More
- TLV702
- TPS25925
- TPS7A8300
- CSD15571Q2
- LMK04828
- LMK00304
- LM95233
- DS90LV028AQ-Q1
- TPS54318
- TPS7A47
- SN74LVC2G53
- SN74LVC1G08
- Less
Multichannel RF transceiver clocking reference design for RADARs and wireless 5G testers

Analog front end for high-speed end equipments like phased-array radars, wireless communication testers, and electronic warfare require synchronized, multipletransceiver signal chains. Each transceiver signal chain includes high-speed, analog-to-digital converters (ADCs), digital-to-analog (...)
- TI Devices
- AFE7444
- TMUX1574
- TPS7A90
- LMX2594
- LMK61E2
- + More
- TLV702
- TPS25925
- TPS7A8300
- CSD15571Q2
- LMK04828
- LMK00304
- LM95233
- DS90LV028AQ-Q1
- TPS54318
- TPS7A47
- SN74LVC2G53
- SN74LVC1G08
- Less
Stereo Evaluation Module Reference Design of the Digital Input, Class-D, IV Sense Audio Amplifier

This reference design provides a high-performance stereo audio subsystem for use in PC applications. It operates off a single supply, ranging from 4.5 V to 16 V, and features the TAS2770, a digital-input Class-D audio amplifier that provides excellent noise and distortion performance and is (...)
- TI Devices
- TPS3897
- SN74LV1T126
- TPS736
- TAS2770
- TMUX1574
- + More
- SN74LVC2G07
- TPS62085
- SN74CB3Q3257
- TL760M33-Q1
- SN74AVC4T774
- CDCE913
- TCA9406
- SN74AVC2T244
- SN74LVC2G66
- Less
Vehicle occupant detection reference design

This reference design demonstrates the use of the AWR1642 single-chip mmWave sensor with integrated DSP as a vehicle occupant detection sensor enabling the detection of occupants in a vehicle. This design provides a reference processing chain that runs on the C674x DSP, enabling generation of a (...)
- TI Devices
- TPS7A88
- TMUX1574
- TPS796
- LP87524B-Q1
- AWR1642
- + More
- TS3A5018
- LM4040
- TPD4E004
- TMP112
- TCAN1042HGV-Q1
- TPS7A8101-Q1
- TM4C1294NCPDT
- Less
Multi-Protocol Digital Position Encoder Master Interface Reference Design With AM437x on PRU-ICSS

TI provides the system solution for Industrial Communication on Sitara™ processors with Programmable Real-Time Unit and Industrial Communication Subsystem (PRU-ICSS). This TI Design describes the integrated multi-protocol digital position encoder master interface support. The supported digital (...)
- TI Devices
- AM4376
- SN65HVD78
- SN74LVC8T245
- SN74CBTLV3257
- TMUX1574
- + More
High Channel Count JESD204B Clock Generation Reference Design for RADAR and 5G Wireless Testers

High-speed multi-channel applications require low noise and scalable clocking solutions capable of precise channel-to-channel skew adjustment to achieve optimal system SNR, SFDR, and ENOB. This reference design supports high channel count JESD204B synchronized clocks using one master and multiple (...)
- TI Devices
- TMUX1574
- TPS7A90
- LMX2594
- ADC12DJ3200
- LMK61E2
- + More
- TLV702
- TPS25925
- TPS7A8300
- CSD15571Q2
- LMK04828
- LMK00304
- LM95233
- DS90LV028AQ-Q1
- TPS54318
- TPS7A47
- SN74LVC2G53
- SN74LVC1G08
- SN74CBTLV3257
- Less
Multi-channel JESD204B 15-GHz clocking reference design for DSO, radar and 5G wireless testers

High speed multi-channel applications require precise clocking solutions capable of managing channel-to-channel skew in order to achieve optimal system SNR, SFDR, and ENOB. This reference design is capable of supporting two high speed channels on separate boards by utilizing TI’s LMX2594 (...)
- TI Devices
- SN74LVC1G08
- SN74CBTLV3257
- TPS7A47
- TPS54318
- DS90LV028AQ-Q1
- + More
- LMK00304
- LMK04828
- CSD15571Q2
- TPS7A8300
- TPS25925
- TLV702
- LMK61E2
- ADC12DJ2700
- ADC12DJ3200
- LMX2594
- ADC08DJ3200
- TMUX1574
- SN74LVC1G125
- Less
High Channel Count JESD204B Daisy Chain Clock Reference Design for RADAR and 5G Wireless Testers

High-speed multi-channel applications require low noise and scalable clocking solutions capable of precise channel-to-channel skew adjustment to achieve optimal system SNR, SFDR, and ENOB. This reference design supports scaling up JESD204B synchronized clocks in daisy chain configuration. This (...)
- TI Devices
- SN74CBTLV3257
- SN74LVC1G08
- SN74LVC2G53
- TPS7A47
- TPS54318
- + More
- DS90LV028AQ-Q1
- LM95233
- LMK00304
- LMK04828
- CSD15571Q2
- TPS7A8300
- TPS25925
- TLV702
- LMK61E2
- ADC12DJ3200
- LMX2594
- TPS7A90
- TMUX1574
- Less
Parallel Redundancy Protocol (PRP) Ethernet Reference Design for Substation Automation

This TI Design implements a solution for high-reliability, low-latency network communications for substation automation equipment in Smart Grid transmission and distribution networks. It supports the Parallel Redundancy Protocol (PRP) specification in the IEC 62439 standard using the PRU-ICSS. This (...)
- TI Devices
- TMUX1574
- AMIC110
- TPS766
- AM3359
- LM94022
- + More
- ISO1176T
- TPS65910
- ISO1050
- TPD4S012
- TLK110
- SN65HVS882
- TPS51200
- CDCE913
- SN74AUP2G08
- TPD6E001
- TPS5420
- PCA9536
- SN74CB3Q3306A
- TPIC2810
- TPS61041
- SN74LVC1G07
- SN74LVC1G06
- SN74LVC1G32
- SN74LVC1G08
- SN74CBTLV3257
- SN74LV244A
- SN74ALVCH16374
- TPS717
- Less
Universal Digital Interface to Absolute Position Encoders Reference Design

The TIDA-00179 reference design is an EMC compliant universal digital interface to connect to absolute position encoders, like EnDat 2.2, BiSS®, SSI or HIPERFACE DSL®. The design supports a wide input voltage range from 15-60V (24V nom). A connector with 3.3V logic I/O signals allows (...)
- TI Devices
- LM2903
- SN74CBTLV3257
- TPS54060A
- SN65HVD78
- TPS54061
- + More
- TMUX1574
- CSD23381F4
- CSD25402Q3A
- TPS24750
- THVD1450
- CSD17483F4
- Less