IWR2243

ACTIVO

MMIC de alto rendimiento industrial de 76 GHz a 81 GHz

Haga su pedido ahora

Hoja de datos

document-pdfAcrobat IWR2243 Single-Chip 76- to 81-GHz FMCW Transceiver datasheet (Inglés) PDF | HTML

Errata

document-pdfAcrobat
IWR2243 Single-Chip 76- to 81-GHz FMCW Transceiver Silicon Errata (Inglés)

IWR2243

ACTIVO

Hoja de datos

Haga su pedido ahora

Detalles del producto

Type

Frequency range

76 - 81 GHz

Number of receivers

Number of transmitters

ADC sampling rate (ksps)

45000

TX power (dBm)

Edge AI enabled

Interface type

CSI-2, I2C, SPI

Operating temperature range (°C)

-40 to 105

TI functional safety category

Functional Safety-Compliant

Power supply solution

LP87745-Q1

Rating

Catalog

Type

Frequency range

76 - 81 GHz

Number of receivers

Number of transmitters

ADC sampling rate (ksps)

45000

TX power (dBm)

Edge AI enabled

Interface type

CSI-2, I2C, SPI

Operating temperature range (°C)

-40 to 105

TI functional safety category

Functional Safety-Compliant

Power supply solution

LP87745-Q1

Rating

Catalog

FCCSP (ABL)

161

108.16 mm² 10.4 x 10.4

FMCW transceiver
- Integrated PLL, transmitter, receiver, baseband, and ADC
- 76- to 81-GHz coverage with 5 GHz available bandwidth
- Four receive channels
- Three transmit channels
- Ultra-accurate chirp engine based on Fractional-N PLL
- TX power: 13 dBm
- RX noise figure: 13 dB
- Phase noise at 1 MHz:
  - –96 dBc/Hz (76 to 77 GHz)
  - –94 dBc/Hz (77 to 81 GHz)
Built-in calibration and self-test
- Built-in firmware (ROM)
- Self-calibrating system across frequency and temperature
Host interface
- Control interface with external processor over SPI or I2C interface
- Data interface with external processor over MIPI D-PHY and CSI2 v1.1
- Interrupts for Fault Reporting
Functional Safety-Compliant
- Developed for functional safety applications
- Documentation available to aid IEC 61508 functional safety system design up to SIL 3
- Hardware integrity up to SIL-2
- Safety-related certification
  - IEC 61508 certified upto SIL 2 by TUV SUD
IWR2243 advanced features
- Embedded self-monitoring with limited Host processor involvement
- Complex baseband architecture
- Option of cascading multiple devices to increase channel count
- Embedded interference detection capability
Power management
- Built-in LDO Network for enhanced PSRR
- I/Os support dual voltage 3.3 V/1.8 V
Clock source
- Supports externally driven clock (square/sine) at 40 MHz
- Supports 40 MHz crystal connection with load capacitors
Easy hardware design
- 0.65-mm pitch, 161-pin 10.4 mm × 10.4 mm flip chip BGA package for easy assembly and low-cost PCB design
- Small solution size
Junction temperature range of –40°C to 105°C

FMCW transceiver
- Integrated PLL, transmitter, receiver, baseband, and ADC
- 76- to 81-GHz coverage with 5 GHz available bandwidth
- Four receive channels
- Three transmit channels
- Ultra-accurate chirp engine based on Fractional-N PLL
- TX power: 13 dBm
- RX noise figure: 13 dB
- Phase noise at 1 MHz:
  - –96 dBc/Hz (76 to 77 GHz)
  - –94 dBc/Hz (77 to 81 GHz)
Built-in calibration and self-test
- Built-in firmware (ROM)
- Self-calibrating system across frequency and temperature
Host interface
- Control interface with external processor over SPI or I2C interface
- Data interface with external processor over MIPI D-PHY and CSI2 v1.1
- Interrupts for Fault Reporting
Functional Safety-Compliant
- Developed for functional safety applications
- Documentation available to aid IEC 61508 functional safety system design up to SIL 3
- Hardware integrity up to SIL-2
- Safety-related certification
  - IEC 61508 certified upto SIL 2 by TUV SUD
IWR2243 advanced features
- Embedded self-monitoring with limited Host processor involvement
- Complex baseband architecture
- Option of cascading multiple devices to increase channel count
- Embedded interference detection capability
Power management
- Built-in LDO Network for enhanced PSRR
- I/Os support dual voltage 3.3 V/1.8 V
Clock source
- Supports externally driven clock (square/sine) at 40 MHz
- Supports 40 MHz crystal connection with load capacitors
Easy hardware design
- 0.65-mm pitch, 161-pin 10.4 mm × 10.4 mm flip chip BGA package for easy assembly and low-cost PCB design
- Small solution size
Junction temperature range of –40°C to 105°C

The IWR2243 is an integrated single-chip FMCW transceiver capable of operation in the 76- to 81-GHz band. This device enables unprecedented levels of integration in an extremely small form factor. IWR2243 is an ideal solution for low power, self-monitored, ultra-accurate radar systems in the industrial space.

IWR2243 is a self-contained FMCW transceiver single-chip solution that simplifies the implementation of Radar sensors. It is built on TI’s low-power 45-nm RFCMOS process, which enables a monolithic implementation of a 3TX, 4RX system with built-in PLL and ADC converters. Simple programming model changes can enable a wide variety of sensor implementation with the possibility of dynamic reconfiguration for implementing a multimode sensor. The IWR2243 device supports connection of multiple devices in cascade fashion. This enhances the angular resolution to meet high performance radar sensor development.

Additionally, the device is provided as a complete platform solution including reference hardware design, software drivers, sample configurations, API guide, and user documentation.

filter

Buscar otro/a Sensores de radar mmWave para uso industrial

Descargar Ver vídeo con transcripción Video

Más información

Visite la zona de desarrolladores de TI para comenzar con la evaluación y el desarrollo.

Documentación técnica

star

=Principal documentación para este producto seleccionada por TI

No se encontraron resultados. Borre su búsqueda y vuelva a intentarlo.

Ver todo 5

Documentación principal	Tipo	Título	Opciones de formato	Fecha
*	Data sheet	IWR2243 Single-Chip 76- to 81-GHz FMCW Transceiver datasheet	PDF \| HTML	14 jul 2021
*	Errata	IWR2243 Single-Chip 76- to 81-GHz FMCW Transceiver Silicon Errata	PDF \| HTML	12 jul 2021
	Functional safety information	IWRxx43 TUV SUD Functional Safety Certificate (Rev. B)		23 ene 2024
	Functional safety information	Certificate No. Z10 088989 0022 Rev. 00 (Rev. A)		02 jun 2022
	Application note	mmWave Radar Radome Design Guide	PDF \| HTML	17 ago 2021

Diseño y desarrollo

Para conocer los términos adicionales o los recursos necesarios, haga clic en cualquier título de abajo para ver la página de detalles cuando esté disponible.

Placa de evaluación

AWR2243BOOST — Módulo de evaluación MMIC AWR2243 de alto rendimiento de segunda generación de 76 GHz a 81 GHz para

El módulo enchufable AWR2243 BoosterPack™ es una placa de evaluación fácil de usar para el dispositivo de detección mmWave AWR2243 de chip único.

El AWR2243BOOST contiene todo lo necesario para empezar a desarrollar utilizando el entorno MMWAVE-STUDIO y el adaptador de captura de datos en tiempo (...)

Guía del usuario: PDF | HTML

No disponible en TI.com

Herramienta de programación de hardware

HS-3P-77-3D-WGA-LOP-4X4 — Diseño de antena para sensores de radar ADAS de HUBER+SUHNER

Antena de guías de ondas 3D de 77 GHz 4Tx4R: familia de soluciones independientes de sustratos RF

HUBER+SUHNER ha desarrollado y fabrica una antena de guías de ondas de plástico metalizada 3D de segunda generación diseñada para soluciones independientes del sustrato de radiofrecuencia (RF). Esta (...)

Desde: Huber+Suhner AG

Visitar el sitio del socio

Third-party accessory

GAPW-3P-ANTENNA — Diseño de antena para sensores de radar ADAS de GapWaves

Gapwaves offers high-performance, low-loss, and cost-efficient waveguide antennas for short-, mid- and long-range automotive radars and industrial applications. Our antennas feature a flexible design and a compact form factor, robust contact-free PCB integration and support contact-free LoP (...)

Desde: Gapwaves

Visitar el sitio del socio

GUI para el módulo de evaluación (EVM)