Información de empaque
| Encapsulado | Pines VQFN (RGZ) | 48 |
| Rango de temperatura de funcionamiento (℃) -40 to 85 |
| Cant. de paquetes | Transportador 2,500 | LARGE T&R |
Características para CC2652RB
- Microcontroller
- Powerful 48-MHz Arm Cortex-M4F processor
- EEMBC CoreMark score: 148
- 352KB of in-system programmable flash
- 256KB of ROM for protocols and library functions
- 8KB of cache SRAM (alternatively available as general-purpose RAM)
- 80KB of ultra-low leakage SRAM. The SRAM is protected by parity to ensure high reliability of operation.
- 2-pin cJTAG and JTAG debugging
- Supports over-the-air (OTA) update
- Ultra-low power sensor controller with 4KB of SRAM
- Sample, store, and process sensor data
- Operation independent from system CPU
- Fast wake-up for low-power operation
- TI-RTOS, drivers, bootloader, Bluetooth 5.2 low energy controller, and IEEE 802.15.4 MAC in ROM for optimized application size
- RoHS-compliant package
- 7-mm × 7-mm RGZ VQFN48 (31 GPIOs)
- Peripherals
- Digital peripherals can be routed to any GPIO
- 4× 32-bit or 8× 16-bit general-purpose timers
- 12-bit ADC, 200 kSamples/s, 8 channels
- 2× comparators with internal reference DAC (1× continuous time, 1× ultra-low power)
- Programmable current source
- 2× UART
- 2× SSI (SPI, MICROWIRE, TI)
- I2C and I2S
- Real-time clock (RTC)
- AES 128- and 256-bit cryptographic accelerator
- ECC and RSA public key hardware accelerator
- SHA2 accelerator (full suite up to SHA-512)
- True random number generator (TRNG)
- Capacitive sensing, up to 8 channels
- Integrated temperature and battery monitor
- External system
- Integrated bulk acoustic wave (BAW) resonator generating accurate clock with fast startup time of 80 µs for system and RF
- On-chip buck DC/DC converter
- Low power
- Wide supply voltage range
- Normal operation: 1.8 to 3.8 V
- External regulator mode: 1.7 to 1.95 V
- Active mode RX: 7.3 mA
- Active mode TX 0 dBm: 7.9 mA
- Active mode TX 5 dBm: 10.2 mA
- Active mode MCU 48 MHz (CoreMark): 3.4 mA (71 µA/MHz)
- Sensor controller, low power-mode, 2 MHz, running infinite loop: 30.8 µA
- Sensor controller, active mode, 24 MHz, running infinite loop: 808 µA
- Standby: 0.94 µA (RTC on, 80KB RAM and CPU retention)
- Wide supply voltage range
- Radio section
- 2.4 GHz RF transceiver compatible with Bluetooth 5.2 Low Energy and earlier LE specifications and IEEE 802.15.4 PHY and MAC
- 3-wire, 2-wire, 1-wire PTA coexistence mechanisms
- Excellent receiver sensitivity: -100 dBm for 802.15.4 (2.4 GHz), -102 dBm for Bluetooth 5 Low Energy Coded
- Programmable output power up to +5 dBm
- Suitable for systems targeting compliance with worldwide radio frequency regulations
- EN 300 328, (Europe)
- EN 300 440 Category 2
- FCC CFR47 Part 15
- ARIB STD-T66 (Japan)
-
Wireless protocols
- Thread, Zigbee , Bluetooth 5.2 Low Energy, IEEE 802.15.4, IPv6-enabled smart objects (6LoWPAN), proprietary systems, SimpleLink™ TI 15.4 stack (2.4 GHz), and dynamic multiprotocol manager (DMM) driver.
- Development Tools and Software
- CC2652RB LaunchPad™ Development Kit
- SimpleLink™ CC13x2 and CC26x2 Software Development Kit
- SmartRF™ Studio for simple radio configuration
- Sensor Controller Studio for building low-power sensing applications
Descripción de CC2652RB
The SimpleLink™CC2652RB device is the industry’s first multiprotocol 2.4 GHz wireless crystal-less microcontroller (MCU) with integrated TI Bulk Acoustic Wave (BAW) resonator technology supporting Thread, Zigbee , Bluetooth 5.2 Low Energy, IEEE 802.15.4, IPv6-enabled smart objects (6LoWPAN), proprietary systems, including the TI 15.4-Stack (2.4 GHz), and concurrent multiprotocol operation through the Dynamic Multiprotocol Manager (DMM) software driver. Integrated BAW resonator technology eliminates the need for external crystals without compromising latency or frequency stability. The device is optimized for low-power wireless communication and advanced sensing in building security systems, HVAC, medical, power tool, wired networking, portable electronics, home theater & entertainment, and connected peripherals markets.
The highlighted features of TI Bulk Acoustic Wave (BAW) resonator technology include:
- Unparalleled RF performance with high-performance frequency stability (±40 PPM) across temperature (-40°C to 85°C) and full operating voltage (1.8 V to 3.8 V), ultra-low jitter and phase noise to meet various wireless communication standards clock requirements.
- Efficient development and production cycles by eliminating crystal oscillator sourcing and reducing costly board re-designs and re-certification due to external crystal layout and assembly issues.
- Optimized Bill of Material (BOM) and PCB area savings (12% average).
- Superior long-term clock stability and aging performance (10 years) in comparison with most standard quartz crystal (longest 5 years aging) enables longer product lifecycles.
- Robust vibration and mechanical shock resistance (3× lower PPM variance versus external crystal) reduces product replacement costs from external crystal failure and allows for operation in harsh environments, such as in motors or heavy machinery.
- Mitigation of potential timing related side channel attacks from external clock tampering.
The highlighted features of the SimpleLink™ MCU platform include:
- Wide flexibility of protocol stack support in the SimpleLink™ CC13x2 and CC26x2 Software Development Kit (SDK).
- Longer battery life wireless applications with low standby current of 0.84 µA and full RAM retention.
- Industrial temperature ready with lowest standby current of 5.6 µA at 85°C.
- Advanced sensing with a programmable, autonomous ultra-low power Sensor Controller CPU with fast wake-up capability. As an example, the sensor controller is capable of 1-Hz ADC sampling at 1 µA system current.
- Low SER (Soft Error Rate) FIT (Failure-in-time) for long operation lifetime with no disruption for industrial markets with always-on SRAM parity against corruption due to potential radiation events.
- Dedicated software-defined radio controller (Arm® Cortex®-M0) providing flexible low-power RF transceiver capability to support multiple physical layers and RF standards.
The CC2652RB device is part of the SimpleLink™ MCU platform, which consists of Wi-Fi, Bluetooth Low Energy, Thread, Zigbee, Sub-1 GHz MCUs, and host MCUs that all share a common, easy-to-use development environment with a single core software development kit (SDK) and rich tool set. A one-time integration of the SimpleLink™ platform enables you to add any combination of the portfolio’s devices into your design, allowing 100 percent code reuse when your design requirements change. For more information, visit SimpleLink™ MCU platform.