RF430FRL154H Series

NFC ISO15693 Sensor Transponder With SPI/I2C Interface and 14-Bit Sigma-Delta ADC

Catalog

NFC ISO15693 Sensor Transponder With SPI/I2C Interface and 14-Bit Sigma-Delta ADC

Part	Frequency	Mounting Type	Standards	Interface	Package / Case	Voltage - Supply [Min]	Voltage - Supply [Max]	Supplier Device Package	Type	For Use With/Related Products	Supplied Contents	Frequency [Min]	Frequency [Max]	Operating Temperature [Max]	Operating Temperature [Min]	Package / Case [custom]	Package / Case [custom]	Modulation	Data Rate (Max)	Power - Output	GPIO	Memory Size	Current - Transmitting [Min]	Current - Transmitting [Max]	Current - Receiving [Max]	Current - Receiving [Min]	RF Family/Standard	Serial Interfaces	Sensitivity
Texas Instruments RF430FRL152HCRGET	13.56 MHz	Surface Mount	ISO 15693 ISO 18000-3 NFC	I2C SPI	24-VFQFN Exposed Pad	1.45 V	1.65 V	24-VQFN (4x4)	RFID Reader/Transponder
Texas Instruments RF430CL330HTB	13.56 MHz								Near Field Communication (NFC)	RF430CL330H	Board(s)
Texas Instruments RF430F5978EVM									Transceiver	RF430F5978	Board(s)	300 MHz	950 MHz
Texas Instruments RF430CL330HIRGTR	13.56 MHz	Surface Mount	ISO 14443 NFC	I2C SPI	16-VFQFN Exposed Pad	2 V	3.6 V	16-VQFN (3x3)	RFID Transponder					85 °C	-40 °C
Texas Instruments RF430FRL152HCRGER	13.56 MHz	Surface Mount	ISO 15693 ISO 18000-3 NFC	I2C SPI	24-VFQFN Exposed Pad	1.45 V	1.65 V	24-VQFN (4x4)	RFID Transponder					70 °C	0 °C
Texas Instruments RF430FRL154HCRGER	13.56 MHz	Surface Mount	ISO 15693 ISO 18000-3 NFC	I2C SPI	24-VFQFN Exposed Pad	1.45 V	1.65 V	24-VQFN (4x4)	RFID Transponder					70 °C	0 °C
Texas Instruments RF430TAL160HDSRGER
Texas Instruments RF430CL330HTPWRQ1	13.56 MHz	Surface Mount		I2C SPI	14-TSSOP	2 V	3.6 V	14-TSSOP	RFID Transponder					105 ░C	-40 °C	0.173 "	4.4 mm
Texas Instruments RF430CL331HIRGTR	13.56 MHz	Surface Mount		I2C	16-VFQFN Exposed Pad	2 V	3.6 V	16-VQFN (3x3)	RFID Transponder					85 °C	-40 °C
Texas Instruments RF430F5978IRGCR		Surface Mount			64-VFQFN Exposed Pad	2 V	3.6 V	64-VQFN (9x9)	TxRx + MCU			300 MHz 389 MHz 779 MHz	348 MHz 464 MHz 928 MHz	85 °C	-40 °C			2FSK 2GFSK ASK MSK OOK	500 kBaud	13 dBm	27	1.74 kB 4 kB 32 kB	15 mA	36 mA	18.5 mA	15 mA	General ISM < 1GHz	I2C IrDA JTAG SPI UART	-117 dBm

Catalog

NFC ISO15693 Sensor Transponder With SPI/I2C Interface and 14-Bit Sigma-Delta ADC

Key Features

• True System-In-Package Based On MSP430 Microcontroller With Sub-1-GHz Transceiver System-On-Chip (SoC) and Additional 3D LF Wake-up and Transponder InterfaceWide Supply Voltage Range: 3.6 V Down To 1.8 VUltra-Low Power ConsumptionCPU Active Mode (AM): 160 µA/MHzStandby Mode (LPM3 Real-Time Clock [RTC] Mode): 2.0 µAOff Mode (LPM4 RAM Retention): 1.0 µARadio in Receive: 15 mA, 250 kbps, 915 MHzMSP430 System and Peripherals16-Bit RISC Architecture, Extended Memory, up to 20-MHz System ClockWake up From Standby Mode in Less Than 6 µsFlexible Power-Management System With SVS and BrownoutUnified Clock System With FLL16-Bit Timer TA0, Timer_A With Five Capture/Compare Registers16-Bit Timer TA1, Timer_A With Three Capture/Compare RegistersHardware RTCTwo Universal Serial Communication Interfaces (USCIs)USCI_A0 Supports UART, IrDA, SPIUSCI_B0 Supports I2C, SPI12-Bit Analog-to-Digital Converter (ADC) With Internal Reference, Sample-and-Hold, and Autoscan FeaturesComparator128-Bit AES Security Encryption and Decryption Coprocessor32-Bit Hardware Multiplier3-Channel Internal DMASerial Onboard Programming, No External Programming Voltage NeededEmbedded Emulation Module (EEM)High-Performance Sub-1-GHz Radio Frequency (RF) Transceiver CoreSame as in CC1101Wide Supply Voltage Range: 2 V to 3.6 VFrequency Bands: 300 MHz to 348 MHz, 389 MHz to 464 MHz, and 779 MHz to 928 MHzProgrammable Data Rate From 0.6 kBaud to 500 kBaudHigh Sensitivity (–117 dBm at 0.6 kBaud, –111 dBm at 1.2 kBaud, 315 MHz, 1% Packet Error Rate)Excellent Receiver Selectivity and Blocking PerformanceProgrammable Output Power up to +12 dBm for All Supported Frequencies2-FSK, 2-GFSK, and MSK Supported as Well as OOK and Flexible ASK ShapingFlexible Support for Packet-Oriented Systems: On-Chip Support for Sync Word Detection, Address Check, Flexible Packet Length, and Automatic CRC HandlingSupport for Automatic Clear Channel Assessment (CCA) Before Transmitting (for Listen-Before-Talk Systems)Digital RSSI OutputSuited for Systems Targeting Compliance With EN 300 220 (Europe) and FCC CFR Part 15 (US)Suited for Systems Targeting Compliance With Wireless M-Bus Standard EN 13757-4:2005Support for Asynchronous and Synchronous Serial Receive and Transmit Mode for Backward Compatibility With Existing Radio Communication ProtocolsHigh-Performance Low-Frequency (LF) Interface3D Wake-up ReceiverLow Standby Current Consumption: 4.4 µARegular Sensitivity Mode: 3.7 mVpp → Approximate 3-m Wake RangeHigh Sensitivity Mode: 0.5 mVpp → Approximate 6-m Wake RangeLow Sensitivity VariationDigital RSSI, 72 dB, 8-Bit LogarithmicTwo Independent Wake Patterns, 0-Bit to 24-Bit LengthDedicated Sensitivity Levels for Both Wake PatternsIntegrated LF Bit Stream Data Decoding and Digital Data OutputAES-128 Hardware Encryption CoprocessorResonant Frequency: 134.2 kHzEmbedded Resonant Trimming for All Three Resonant Circuits3D Transponder InterfaceTransponder Read Range up to 4 in (10 cm), Power Received From LF RF FieldHalf-Duplex (HDX) Communication ProtocolSelectable Challenge/Response Length: 32/32, 64/64, or 96/64 BitMutual Authentication For All Commands With 32-Bit Reader SignatureBurst Read ModeAnticollision EncryptionEEPROM Memory Size of 2048 BytesAvailable User EEPROM is 1776 BytesEncryption Keys 4 × 128 BitsConfigurable Page Types for Selective Access GrantAll Pages Lockable (No Reprogramming Possible)Switch Interface With up to Eight InputsTrue System-In-Package Based On MSP430 Microcontroller With Sub-1-GHz Transceiver System-On-Chip (SoC) and Additional 3D LF Wake-up and Transponder InterfaceWide Supply Voltage Range: 3.6 V Down To 1.8 VUltra-Low Power ConsumptionCPU Active Mode (AM): 160 µA/MHzStandby Mode (LPM3 Real-Time Clock [RTC] Mode): 2.0 µAOff Mode (LPM4 RAM Retention): 1.0 µARadio in Receive: 15 mA, 250 kbps, 915 MHzMSP430 System and Peripherals16-Bit RISC Architecture, Extended Memory, up to 20-MHz System ClockWake up From Standby Mode in Less Than 6 µsFlexible Power-Management System With SVS and BrownoutUnified Clock System With FLL16-Bit Timer TA0, Timer_A With Five Capture/Compare Registers16-Bit Timer TA1, Timer_A With Three Capture/Compare RegistersHardware RTCTwo Universal Serial Communication Interfaces (USCIs)USCI_A0 Supports UART, IrDA, SPIUSCI_B0 Supports I2C, SPI12-Bit Analog-to-Digital Converter (ADC) With Internal Reference, Sample-and-Hold, and Autoscan FeaturesComparator128-Bit AES Security Encryption and Decryption Coprocessor32-Bit Hardware Multiplier3-Channel Internal DMASerial Onboard Programming, No External Programming Voltage NeededEmbedded Emulation Module (EEM)High-Performance Sub-1-GHz Radio Frequency (RF) Transceiver CoreSame as in CC1101Wide Supply Voltage Range: 2 V to 3.6 VFrequency Bands: 300 MHz to 348 MHz, 389 MHz to 464 MHz, and 779 MHz to 928 MHzProgrammable Data Rate From 0.6 kBaud to 500 kBaudHigh Sensitivity (–117 dBm at 0.6 kBaud, –111 dBm at 1.2 kBaud, 315 MHz, 1% Packet Error Rate)Excellent Receiver Selectivity and Blocking PerformanceProgrammable Output Power up to +12 dBm for All Supported Frequencies2-FSK, 2-GFSK, and MSK Supported as Well as OOK and Flexible ASK ShapingFlexible Support for Packet-Oriented Systems: On-Chip Support for Sync Word Detection, Address Check, Flexible Packet Length, and Automatic CRC HandlingSupport for Automatic Clear Channel Assessment (CCA) Before Transmitting (for Listen-Before-Talk Systems)Digital RSSI OutputSuited for Systems Targeting Compliance With EN 300 220 (Europe) and FCC CFR Part 15 (US)Suited for Systems Targeting Compliance With Wireless M-Bus Standard EN 13757-4:2005Support for Asynchronous and Synchronous Serial Receive and Transmit Mode for Backward Compatibility With Existing Radio Communication ProtocolsHigh-Performance Low-Frequency (LF) Interface3D Wake-up ReceiverLow Standby Current Consumption: 4.4 µARegular Sensitivity Mode: 3.7 mVpp → Approximate 3-m Wake RangeHigh Sensitivity Mode: 0.5 mVpp → Approximate 6-m Wake RangeLow Sensitivity VariationDigital RSSI, 72 dB, 8-Bit LogarithmicTwo Independent Wake Patterns, 0-Bit to 24-Bit LengthDedicated Sensitivity Levels for Both Wake PatternsIntegrated LF Bit Stream Data Decoding and Digital Data OutputAES-128 Hardware Encryption CoprocessorResonant Frequency: 134.2 kHzEmbedded Resonant Trimming for All Three Resonant Circuits3D Transponder InterfaceTransponder Read Range up to 4 in (10 cm), Power Received From LF RF FieldHalf-Duplex (HDX) Communication ProtocolSelectable Challenge/Response Length: 32/32, 64/64, or 96/64 BitMutual Authentication For All Commands With 32-Bit Reader SignatureBurst Read ModeAnticollision EncryptionEEPROM Memory Size of 2048 BytesAvailable User EEPROM is 1776 BytesEncryption Keys 4 × 128 BitsConfigurable Page Types for Selective Access GrantAll Pages Lockable (No Reprogramming Possible)Switch Interface With up to Eight Inputs

Description

The TI RF430F5978 system-in-package adds a 3D low-frequency (LF) wake-up and transponder interface to the CC430 ultra-low-power microcontroller system-on-chip (SoC) with integrated sub-1-GHz RF transceiver. This architecture allows activation and deactivation of the device in a dedicated and well-defined area "on-demand" to achieve extended battery life for the whole system. The embedded LF transponder interface is always functional even without battery supply and offers the highest level of security through its 128-bit AES encryption for challenge/response and mutual authentication. The embedded LF transponder interface also adds 2KB of programmable EEPROM memory to the system. The CC430 ultra-low-power microcontroller system-on-chip (SoC) combines the CC1101 sub-1-GHz RF transceiver with the powerful MSP430 16-bit RISC CPU. Sixteen-bit registers and constant generators contribute to maximum code efficiency. The RF430F5978 device features the MSP430 CPUXV2, 32KB of in-system programmable flash memory, 4KB of RAM, two 16-bit timers, a high-performance 12-bit ADC with six external inputs plus internal temperature and battery sensors, a comparator, two USCIs, a 128-bit AES security accelerator, a hardware multiplier, DMA, and an RTC module with alarm capabilities. The RF430F5978 provides a tight integration between the microcontroller core, its peripherals, software, and the integrated sub-1-GHz RF transceiver and 3D LF transceiver for wake-up and transponder interface, making these solutions easy to use while improving performance. For complete module descriptions, see the (SLAU378). The TI RF430F5978 system-in-package adds a 3D low-frequency (LF) wake-up and transponder interface to the CC430 ultra-low-power microcontroller system-on-chip (SoC) with integrated sub-1-GHz RF transceiver. This architecture allows activation and deactivation of the device in a dedicated and well-defined area "on-demand" to achieve extended battery life for the whole system. The embedded LF transponder interface is always functional even without battery supply and offers the highest level of security through its 128-bit AES encryption for challenge/response and mutual authentication. The embedded LF transponder interface also adds 2KB of programmable EEPROM memory to the system. The CC430 ultra-low-power microcontroller system-on-chip (SoC) combines the CC1101 sub-1-GHz RF transceiver with the powerful MSP430 16-bit RISC CPU. Sixteen-bit registers and constant generators contribute to maximum code efficiency. The RF430F5978 device features the MSP430 CPUXV2, 32KB of in-system programmable flash memory, 4KB of RAM, two 16-bit timers, a high-performance 12-bit ADC with six external inputs plus internal temperature and battery sensors, a comparator, two USCIs, a 128-bit AES security accelerator, a hardware multiplier, DMA, and an RTC module with alarm capabilities. The RF430F5978 provides a tight integration between the microcontroller core, its peripherals, software, and the integrated sub-1-GHz RF transceiver and 3D LF transceiver for wake-up and transponder interface, making these solutions easy to use while improving performance. For complete module descriptions, see the (SLAU378).