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CC1310F128RHBR Detailed explanation of pin function specifications and circuit principle instructions

The component you are referring to is the CC1310F128RHBR. It is a radio-frequency integrated circuit ( RF IC) developed by Texas Instruments (TI), designed for low- Power wireless communication, including protocols such as Bluetooth Low Energy (BLE), Sub-1 GHz, and Zigbee.

General Information:

Model: CC1310F128RHBR Manufacturer: Texas Instruments (TI) Package Type: QFN (Quad Flat No-lead) Pin Count: 48 Pins

Now let's proceed to break down the pin functions and FAQ.

Pin Function Description:

Pin Number Pin Name Pin Type Function Description 1 VSS Ground Ground connection for the chip. 2 VDD Power Power supply input for the chip. 3 VIO Power I/O supply voltage input. 4 P1.0 I/O General-purpose I/O pin 1.0, can be configured as GPIO. 5 P1.1 I/O General-purpose I/O pin 1.1, can be configured as GPIO. 6 P1.2 I/O General-purpose I/O pin 1.2, can be configured as GPIO. 7 P1.3 I/O General-purpose I/O pin 1.3, can be configured as GPIO. 8 P1.4 I/O General-purpose I/O pin 1.4, can be configured as GPIO. 9 P1.5 I/O General-purpose I/O pin 1.5, can be configured as GPIO. 10 P1.6 I/O General-purpose I/O pin 1.6, can be configured as GPIO. 11 P1.7 I/O General-purpose I/O pin 1.7, can be configured as GPIO. 12 P2.0 I/O General-purpose I/O pin 2.0, can be configured as GPIO. 13 P2.1 I/O General-purpose I/O pin 2.1, can be configured as GPIO. 14 P2.2 I/O General-purpose I/O pin 2.2, can be configured as GPIO. 15 P2.3 I/O General-purpose I/O pin 2.3, can be configured as GPIO. 16 P2.4 I/O General-purpose I/O pin 2.4, can be configured as GPIO. 17 P2.5 I/O General-purpose I/O pin 2.5, can be configured as GPIO. 18 P2.6 I/O General-purpose I/O pin 2.6, can be configured as GPIO. 19 P2.7 I/O General-purpose I/O pin 2.7, can be configured as GPIO. 20 P3.0 I/O General-purpose I/O pin 3.0, can be configured as GPIO. 21 P3.1 I/O General-purpose I/O pin 3.1, can be configured as GPIO. 22 P3.2 I/O General-purpose I/O pin 3.2, can be configured as GPIO. 23 P3.3 I/O General-purpose I/O pin 3.3, can be configured as GPIO. 24 P3.4 I/O General-purpose I/O pin 3.4, can be configured as GPIO. 25 P3.5 I/O General-purpose I/O pin 3.5, can be configured as GPIO. 26 P3.6 I/O General-purpose I/O pin 3.6, can be configured as GPIO. 27 P3.7 I/O General-purpose I/O pin 3.7, can be configured as GPIO. 28 P4.0 I/O General-purpose I/O pin 4.0, can be configured as GPIO. 29 P4.1 I/O General-purpose I/O pin 4.1, can be configured as GPIO. 30 P4.2 I/O General-purpose I/O pin 4.2, can be configured as GPIO. 31 P4.3 I/O General-purpose I/O pin 4.3, can be configured as GPIO. 32 P4.4 I/O General-purpose I/O pin 4.4, can be configured as GPIO. 33 P4.5 I/O General-purpose I/O pin 4.5, can be configured as GPIO. 34 P4.6 I/O General-purpose I/O pin 4.6, can be configured as GPIO. 35 P4.7 I/O General-purpose I/O pin 4.7, can be configured as GPIO. 36 RESET Input Chip reset pin for external reset. 37 XOSC_HF Input High-frequency crystal oscillator input. 38 XOSC_LF Input Low-frequency crystal oscillator input. 39 SYS_RESET Output System reset signal output. 40 RF_PWR Power Power supply for RF section. 41 RF_GND Ground Ground for RF section. 42 ANT I/O antenna connection for wireless signals. 43 RFIO0 I/O RF input/output pin for wireless communication. 44 RFIO1 I/O RF input/output pin for wireless communication. 45 VSTBY Power Power standby pin to manage low-power states. 46 TDI Input Test data in for debug purposes. 47 TDO Output Test data out for debug purposes. 48 TCK Input Test clock input for debug purposes.

FAQ (Frequently Asked Questions):

Q1: What is the main function of the CC1310F128RHBR? A1: The CC1310F128RHBR is a low-power microcontroller with built-in RF capabilities, designed for wireless communication, including Bluetooth Low Energy, Sub-1 GHz, and Zigbee protocols.

Q2: What is the pin count of the CC1310F128RHBR? A2: The CC1310F128RHBR has 48 pins.

Q3: What package type is the CC1310F128RHBR? A3: The package type is QFN (Quad Flat No-lead).

Q4: Can the GPIO pins be configured as inputs or outputs? A4: Yes, the GPIO pins on the CC1310F128RHBR can be configured as either inputs or outputs, depending on the application.

Q5: What is the power supply voltage for the CC1310F128RHBR? A5: The CC1310F128RHBR requires a VDD supply, which typically operates between 1.8V and 3.8V.

Q6: What is the function of the RESET pin? A6: The RESET pin is used to reset the chip, either through an external pulse or signal.

Q7: What is the RFPWR pin used for? A7: The RFPWR pin is used to supply power to the RF section of the chip.

Q8: How does the CC1310F128RHBR achieve low-power operation? A8: The CC1310F128RHBR supports various low-power modes, including sleep, standby, and deep sleep, allowing energy-efficient wireless communication.

Q9: Can the CC1310F128RHBR communicate with other devices over Bluetooth Low Energy? A9: Yes, the CC1310F128RHBR supports Bluetooth Low Energy (BLE) communication, making it suitable for IoT applications.

Q10: How is the antenna connected to the CC1310F128RHBR? A10: The antenna is connected via the ANT pin, which is part of the RF section of the chip.

Q11: What is the maximum data rate supported by the CC1310F128RHBR? A11: The CC1310F128RHBR supports a maximum data rate of up to 1 Mbps for BLE communication.

Q12: What type of oscillators are supported by the CC1310F128RHBR? A12: The chip supports both high-frequency (XOSCHF) and low-frequency (XOSCLF) crystal oscillators for accurate timing.

Q13: How can the debug interface be accessed on the CC1310F128RHBR? A13: The debug interface can be accessed via the TDI, TDO, and TCK pins for debugging purposes.

Q14: Can the CC1310F128RHBR operate in a sub-1 GHz range? A14: Yes, the CC1310F128RHBR is designed to operate in the sub-1 GHz frequency range for long-range wireless communication.

Q15: How can the chip's reset be triggered? A15: The RESET pin can be used to trigger a reset either manually or via a programmed command.

Q16: Is the CC1310F128RHBR compatible with Zigbee? A16: Yes, the CC1310F128RHBR supports Zigbee communication alongside other protocols like BLE and Sub-1 GHz.

Q17: What is the function of the SYSRESET pin? A17: The SYSRESET pin is used to output a reset signal for the entire system.

Q18: Can the CC1310F128RHBR be used in industrial applications? A18: Yes, the CC1310F128RHBR is suitable for industrial applications requiring low-power wireless communication, such as smart metering and asset tracking.

Q19: How is data transmitted over the RF section? A19: Data is transmitted over the RFIO0 and RFIO1 pins, which are used for input and output of RF signals.

Q20: What is the purpose of the VSTBY pin? A20: The VSTBY pin is used to put the chip in a low-power standby state when not in active use.

This should provide a detailed overview of the CC1310F128RHBR, including the pin functions, and common FAQs.