Short/Medium Range Radar
Automotive Electronics is a critical component in modern vehicles, enhancing safety, comfort, and performance. Within this domain, ADAS & Autonomous Driving systems play a vital role in enabling advanced driver assistance and self-driving capabilities. Among these systems, Radar Systems are essential for detecting objects, measuring distances, and monitoring the vehicle's surroundings. Short/Medium Range Radar (SMRR) specifically supports functions such as adaptive cruise control, blind spot detection, and collision warning. These radars operate at high frequencies, providing accurate and real-time data to the vehicle's control units. SMRR is widely used in passenger cars, commercial vehicles, and autonomous platforms to improve situational awareness and enhance driving safety. Its applications include lane keeping assist, automatic emergency braking, and parking assistance. By integrating SMRR into automotive electronics, manufacturers can develop smarter, safer, and more reliable vehicles. This technology is crucial for achieving higher levels of vehicle autonomy and meeting evolving safety standards. The continuous advancement of radar systems ensures better performance in various weather and lighting conditions, making them indispensable in modern automotive design. Overall, Short/Medium Range Radar is a key enabler of intelligent transportation, offering valuable support to both drivers and autonomous systems.
Details
Short/Medium Range Radar
Related Parts
| Series Name | Description | Manufacturer Name | Attribute Description |
|---|---|---|---|
| STMicroelectronics | 4-Kbit I²C serial EEPROM; 2.5V to 5.5V supply; 125°C operating temperature; 64-byte page write; 400 kHz clock; 2-wire bus interface; 128 x 32-bit memory organization. | ||
| STMicroelectronics | 16-bit microcontroller, 64 KB flash, 4 KB RAM, 40 MHz CPU, LIN 2.2 interface, 3.3 V/5 V operation, -40°C to 125°C temperature range, 48-pin LQFP package, integrated voltage regulator, multiple timers, SPI, I2C, UART. | ||
| STMicroelectronics | 32-bit Power Architecture MCU, 120 MHz, 2 MB Flash, 240 KB RAM, 12-channel DMA, 4x CAN FD, 2x LIN, 16-bit ADC, 2x DAC, 16-bit Timers, enhanced for automotive powertrain applications. | ||
| STMicroelectronics | 32-bit Power Architecture MCU, 120 MHz, 2 MB Flash, 192 KB RAM, 12-channel DMA, 4x LIN, 4x CAN FD, 16-bit ADC, 48 MHz PLL, -40°C to 150°C junction temp, 1.2 V core, 3.3 V I/O | ||
| STMicroelectronics | 2A, 100V Schottky diode, low forward voltage, high efficiency, surface mount, suitable for power rectification and freewheeling applications. | ||
| Texas Instruments | Input voltage: 2.8V to 5.5V; 4 configurable buck converters; up to 95% efficiency; integrated LDOs; I2C interface; supports automotive applications; operating junction temp: -40°C to 150°C. | ||
| Texas Instruments | 12-bit digital temperature sensor with two remote diode channels, ±1°C accuracy, I2C/SMBus interface, 0.125°C resolution, -40°C to +125°C operating range, low power consumption, 8-pin SOIC package. | ||
| Texas Instruments | 3.8V to 17V input, 5-channel PMIC, 2.5MHz switching frequency, integrated buck converters, I2C interface, automotive-grade, 40-pin VQFN package, supports up to 4A total output current. | ||
| Texas Instruments | 36V input, 500mA low-dropout regulator, ultra-low IQ, adjustable output, thermal shutdown, enable pin, stable with ceramic capacitors, operating junction temp: -40°C to 125°C. | ||
| Texas Instruments | 3.3V fixed output, 3A LDO, input voltage 2.9V to 5.5V, ultra-low noise 4.6µVRMS, high PSRR 70dB @ 1kHz, adjustable soft-start, enable pin, thermal shutdown, 6mm × 6mm VQFN package. |
.png?x-oss-process=image/format,webp/resize,h_32)
©2025 ERSA Electronics Corporation.