TEF810X 76 GHz to 81 GHz car RADAR transceiver Rev. 1.0 10 May 2019 Product short data sheet COMPANY PUBLIC 1 General description The TEF810X Car RADAR transceiver is a single-chip automotive FMCW RADAR transceiver for short-, medium- and long-range RADAR applications, covering the full car RADAR frequency band from 76 GHz to 81 GHz. The packaged IC offers a low-cost fully integrated solution for all critical mm-wave functions, in combination with ADCs at each receiver path. The mm-wave front end part consists of a waveform generator offering flexible chirp control, three transmit chains featuring binary phase control and output level stabilization, and four receive chains with high input compression and low noise figure. Each receive chain contains high-pass filters for suppression of strong low frequency signals, as well as low-pass filter functionality for suppression of signals in the ADC aliasing band. Each receive chain includes a 12-bit SAR ADC sampling at an effective rate of 40 MS/s (M samples per second). The ADC is followed by a programmable decimation filter with decimation factors of 1, 2, 4, 8 and 16. The digitized signals from the four receiver chains are serialized. There are two digital output variants available: TEF8101 output is through four high-speed LVDS data lines, plus a bit and frame clock signals for data synchronization TEF8102 includes a CSI-2-DPHY interface with four data lanes and a clock lane The chip uses a full-duplex SPI interface with 40 Mbps maximal transfer rate for bi- directional exchange of control and monitoring data between the RADAR IC and a host microcontroller. The TEF810X contains a functional safety monitoring circuit, keeping track of key operational parameters such as chip temperature, status of RF connections to the PCB board, locking status of the PLLs during a frequency chirp, etc. The monitoring circuitry transfers some of the monitoring functions normally performed by the microcontroller into the TEF810X, creating a virtual layered functional safety concept, with the TEF810X functional monitoring circuitry as the inner layer. The RADAR transceiver is packaged in a 7.5 mm x 7.5 mm eWLB package. The package has a 15 x 15 sized Ball Grid Array (BGA) with 0.5 mm pitch for easy interfacing to a wide range of antenna board technologies.NXP Semiconductors TEF810X 76 GHz to 81 GHz car RADAR transceiver 2 Features and benefits Single-chip fully integrated automotive FMCW RADAR transceiver with digital output Developed in accordance to ISO26262 SEoOC methodology. Supporting ASIL-B applications Car RADAR frequency band from 76 GHz to 81 GHz, addressing short-, medium- and long-range RADAR applications for the global automotive market The mm-wave front end part consists of a waveform generator offering flexible chirp control with a chirp bandwidth up to 2 GHz, three transmit chains featuring binary phase control and output level stabilization, and four receive chains with high input compression point and low noise figure The timing engine supports different MIMO RADAR operation modes by simple programming of digital registers controlling timing parameters and front end configuration on a chirp-to-chirp basis The phase of the TX signals can be controlled on a chirp-to-chirp basis by the timing engine, or by digital I/O signals directly connected to the binary phase shifters of different TX sections Each receive chain contains programmable high-pass filters for suppression of strong low frequency signals, as well as low-pass filter functionality for suppression of signals in the ADC aliasing band. Each receive chain includes a 12-bit SAR ADC sampling at an effective rate of 40 MS/ s. The ADC is followed by a programmable decimation filter with decimation factors of 1, 2, 4, 8 and 16 TEF8101: data output on four high-speed LVDS lines, in two modes: raw ADC serial data streaming, or packetized format with added CRC information TEF8102: four data lanes and a clock lane. Lane speed configurable from 120 Mbps to 480 Mbps, as a function of the decimation factor The chip uses a full-duplex SPI interface with 40 Mbps maximal transfer rate for bi- directional exchange of control and monitoring data between the RADAR IC and a host microcontroller The TEF810X contains a functional safety monitoring circuit, keeping track of key operational parameters such as chip temperature, status of RF connections to the PCB board, locking status of the PLLs during a frequency chirp, etc. The functional monitoring circuitry transfers some of the monitoring functions normally performed by the microcontroller into the TEF810X, creating a virtual layered functional safety concept, with the TEF810X functional monitoring circuitry as the inner layer Total average power dissipation at typical conditions under 1.2 W (2TX at 50 % duty cycle) and peak dissipation under 2.5 W o o Operating junction temperature from -40 C up to 135 C Closed-loop, linear frequency chirp generator with < 0.2 % typical chirp nonlinearity Three chirp modes with Low Phase Noise: Chirp BW Slope (MHz/s) Phase noise (dBc/Hz 1 MHz) (MHz/s) MRR 0.5 15 < -90 (typical, in 76 GHz to 77 GHz band) SRR 1.0 30 < -88 (typical, in 76 GHz to 81 GHz band) USR 2.0 60 < -86 (typical, in 77 GHz to 81 GHz band) TEF810X All information provided in this document is subject to legal disclaimers. NXP B.V. 2019. All rights reserved. Product short data sheet Rev. 1.0 10 May 2019 COMPANY PUBLIC 2 / 13