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Part Name(s) : CC2540F128 CC2540F256 CC2540F128RHAR CC2540F128RHAT CC2540F256RHAR CC2540F256RHAT Texas-Instruments
Texas Instruments
Description : 2.4-GHz Bluetooth® low energy System-on-Chip View

DESCRIPTION
The CC2540 is a cost-effective, low-power, true System-on-Chip (SoC) for Bluetooth low energy applications. It enables robust BLE master or slave nodes to be built with very low total bill-of-material costs. The CC2540 combines an excellent RF transceiver with an industry-standard enhanced 8051 MCU, in-system programmable flash memory, 8-KB RAM, and many other powerful supporting features and peripherals. The CC2540 is suitable for systems where very low power consumption is required. Very low-power sleep modes are available. Short transition times between operating modes further enable low power consumption.
The CC2540 comes in two different versions: CC2540F128/F256, with 128 and 256 KB of flash memory, respectively.
Combined with the Bluetooth low energy protocol stack from Texas Instruments, the CC2540F128/F256 forms the market’s most flexible and cost-effective single-mode Bluetooth low energy solution.

FEATURES
• True Single-Chip BLE Solution: CC2540 Can
   Run Both Application and BLE Protocol Stack,
   Includes Peripherals to Interface With Wide
   Range of Sensors, Etc.
• 6-mm × 6-mm Package
• RF
   – Bluetooth low energy technology
      Compatible
   – Excellent Link Budget (up to 97 dB),
      Enabling Long-Range Applications Without
      External Front End
   – Accurate Digital Received Signal-Strength
      Indicator (RSSI)
   – Suitable for Systems Targeting Compliance
      With Worldwide Radio Frequency
      Regulations: ETSI EN 300 328 and EN 300
      440 Class 2 (Europe), FCC CFR47 Part 15
      (US), and ARIB STD-T66 (Japan)
• Layout
   – Few External Components
   – Reference Design Provided
   – 6-mm × 6-mm QFN40 Package
low Power
   – Active Mode RX Down to 19.6 mA
   – Active Mode TX (–6 dBm): 24 mA
   – Power Mode 1 (3-μs Wake-Up): 235 μA
   – Power Mode 2 (Sleep Timer On): 0.9 μA
   – Power Mode 3 (External Interrupts): 0.4 μA
   – Wide Supply Voltage Range (2 V–3.6 V)
   – Full RAM and Register Retention in All
      Power Modes
• TPS62730 Compatible
   low Power in Active Mode
   – RX Down to 15.8 mA (3 V Supply)
   – TX (-6 dBm): 18.6 mA (3 V Supply)
• Microcontroller
   – High-Performance and low-Power 8051
      Microcontroller Core
   – In-System-Programmable Flash, 128 KB or
      256 KB
   – 8-KB SRAM
• Peripherals
   – 12-Bit ADC with Eight Channels and
      Configurable Resolution
   – Integrated High-Performance Op-Amp and
      Ultralow-Power Comparator
   – General-Purpose Timers (One 16-Bit, Two
      8-Bit)
   – 21 General-Purpose I/O Pins (19× 4 mA, 2×
      20 mA)
   – 32-kHz Sleep Timer With Capture
   – Two Powerful USARTs With Support for
      Several Serial Protocols
   – Full-Speed USB Interface
   – IR Generation Circuitry
   – Powerful Five-Channel DMA
   – AES Security Coprocessor
   – Battery Monitor and Temperature Sensor
   – Each CC2540 Contains a Unique 48-bit
      IEEE Address  (Continue ...)
  
APPLICATIONS
2.4-GHz Bluetooth low energy Systems
• Mobile Phone Accessories
• Sports and Leisure Equipment
• Consumer Electronics
• Human Interface Devices (Keyboard, Mouse,
   Remote Control)
• USB Dongles
• Health Care and Medical

Part Name(s) : CC2540F128 CC2540F128RHAR CC2540F128RHAT CC2540F256 CC2540F256RHAR CC2540F256RHAT TI
Texas Instruments
Description : 2.4-GHz Bluetooth® low energy System-on-Chip View

DESCRIPTION
The CC2540 is a cost-effective, low-power, true System-on-Chip (SoC) for Bluetooth low energy applications. It enables robust BLE master or slave nodes to be built with very low total bill-of-material costs. The CC2540 combines an excellent RF transceiver with an industry-standard enhanced 8051 MCU, in-system programmable flash memory, 8-KB RAM, and many other powerful supporting features and peripherals. The CC2540 is suitable for systems where very low power consumption is required. Very low-power sleep modes are available. Short transition times between operating modes further enable low power consumption.

FEATURES
• True Single-Chip BLE Solution: CC2540 Can
   Run Both Application and BLE Protocol Stack,
   Includes Peripherals to Interface With Wide
   Range of Sensors, Etc.
• 6-mm × 6-mm Package
• RF
   – Bluetooth low energy technology
      Compatible
   – Excellent Link Budget (up to 97 dB),
      Enabling Long-Range Applications Without
      External Front End
   – Accurate Digital Received Signal-Strength
      Indicator (RSSI)
   – Suitable for Systems Targeting Compliance
      With Worldwide Radio Frequency
      Regulations: ETSI EN 300 328 and EN 300
      440 Class 2 (Europe), FCC CFR47 Part 15
      (US), and ARIB STD-T66 (Japan)
• Layout
   – Few External Components
   – Reference Design Provided
   – 6-mm × 6-mm QFN40 Package
low Power
   – Active Mode RX Down to 19.6 mA
   – Active Mode TX (–6 dBm): 24 mA
   – Power Mode 1 (3-μs Wake-Up): 235 μA
   – Power Mode 2 (Sleep Timer On): 0.9 μA
   – Power Mode 3 (External Interrupts): 0.4 μA
   – Wide Supply Voltage Range (2 V–3.6 V)
   – Full RAM and Register Retention in All
      Power Modes
• TPS62730 Compatible
   low Power in Active Mode
      – RX Down to 15.8 mA (3 V Supply)
      – TX (-6 dBm): 18.6 mA (3 V Supply)
• Microcontroller
   – High-Performance and low-Power 8051
      Microcontroller Core
   – In-System-Programmable Flash, 128 KB or
      256 KB
   – 8-KB SRAM
• Peripherals
   – 12-Bit ADC with Eight Channels and
      Configurable Resolution
   – Integrated High-Performance Op-Amp and
      Ultralow-Power Comparator
   – General-Purpose Timers (One 16-Bit, Two
      8-Bit)
   – 21 General-Purpose I/O Pins (19× 4 mA, 2×
      20 mA)
   – 32-kHz Sleep Timer With Capture
   – Two Powerful USARTs With Support for
      Several Serial Protocols
   – Full-Speed USB Interface
   – IR Generation Circuitry
   – Powerful Five-Channel DMA
   – AES Security Coprocessor
   – Battery Monitor and Temperature Sensor
   – Each CC2540 Contains a Unique 48-bit
      IEEE Address (Continue ...)

APPLICATIONS
2.4-GHz Bluetooth low energy Systems
• Mobile Phone Accessories
• Sports and Leisure Equipment
• Consumer Electronics
• Human Interface Devices (Keyboard, Mouse, Remote Control)
• USB Dongles
• Health Care and Medical

Part Name(s) : CC2541 CC2541F128RHAR CC2541F128RHAT CC2541F256RHAR CC2541F256RHAT HPA01215RHAR HPA01216RHAR CC2541F128 CC2541F256 TI
Texas Instruments
Description : 2.4-GHz Bluetooth™ low energy and Proprietary System-on-Chip View

DESCRIPTION
The CC2541 is a power-optimized true System-on-Chip (SoC) solution for both Bluetooth low energy and proprietary 2.4-GHz applications. It enables robust network nodes to be built with low total bill-of-material costs. The CC2541 combines the excellent performance of a leading RF transceiver with an industry-standard enhanced 8051 MCU, in-system programmable flash memory, 8-KB RAM, and many other powerful supporting features and peripherals. The CC2541 is highly suited for systems where ultralow power consumption is required. This is specified by various operating modes. Short transition times between operating modes further enable low power consumption.
The CC2541 is pin-compatible with the CC2540 in the 6-mm × 6-mm QFN40 package, if the USB is not used on the CC2540 and the I2C/extra I/O is not used on the CC2541. Compared to the CC2540, the CC2541 provides lower RF current consumption. The CC2541 does not have the USB interface of the CC2540, and provides lower maximum output power in TX mode. The CC2541 also adds a HW I2C interface.
The CC2541 is pin-compatible with the CC2533 RF4CE-optimized IEEE 802.15.4 SoC.
The CC2541 comes in two different versions:
CC2541F128/F256, with 128 KB and 256 KB of flash memory, respectively.

FEATURES
• RF
   – 2.4-GHz Bluetooth low energy Compliant
      and Proprietary RF System-on-Chip
   – Supports 250-kbps, 500-kbps, 1-Mbps, 2-Mbps Data Rates
   – Excellent Link Budget, Enabling Long
      Range Applications Without External Front End
   – Programmable Output Power up to 0 dBm
   – Excellent Receiver Sensitivity (–94 dBm at 1 Mbps), Selectivity,
      and Blocking Performance
   – Suitable for Systems Targeting Compliance
      With Worldwide Radio Frequency
      Regulations: ETSI EN 300 328 and EN 300
      440 Class 2 (Europe), FCC CFR47 Part 15
      (US), and ARIB STD-T66 (Japan)
• Layout
   – Few External Components
   – Reference Design Provided
   – 6-mm × 6-mm QFN-40 Package
   – Pin-Compatible With CC2540 (When Not Using USB or I2C)
low Power
   – Active-Mode RX Down to: 17.9 mA
   – Active-Mode TX (0 dBm): 18.2 mA
   – Power Mode 1 (4-µs Wake-Up): 270 µA
   – Power Mode 2 (Sleep Timer On): 1 µA
   – Power Mode 3 (External Interrupts): 0.5 µA
   – Wide Supply-Voltage Range (2 V–3.6 V)
• TPS62730 Compatible low Power in Active Mode
   – RX Down to: 14.7 mA (3-V supply)
   – TX (0 dBm): 14.3 mA (3-V supply)
   – High-Performance and low-Power 8051
      Microcontroller Core With Code Prefetch
   – In-System-Programmable Flash, 128- or 256-KB
   – 8-KB RAM With Retention in All Power Modes
   – Hardware Debug Support
   – Extensive Baseband Automation, Including
      Auto-Acknowledgment and Address Decoding
   – Retention of All Relevant Registers in All Power Modes
• Peripherals
   – Powerful Five-Channel DMA
   – General-Purpose Timers (One 16-Bit, Two
   8-Bit)
   – IR Generation Circuitry
   – 32-kHz Sleep Timer With Capture
   – Accurate Digital RSSI Support
   – Battery Monitor and Temperature Sensor
   – 12-Bit ADC With Eight Channels and Configurable Resolution
   – AES Security Coprocessor
   – Two Powerful USARTs With Support for Several Serial Protocols
   – 23 General-Purpose I/O Pins (21 × 4 mA, 2 × 20 mA)
   – I2C interface
   – 2 I/O Pins Have LED Driving Capabilities
   – Watchdog Timer
   – Integrated High-Performance Comparator
• Development Tools
   – CC2541 Evaluation Module Kit (CC2541EMK)
   – CC2541 Mini Development Kit (CC2541DK MINI)
   – SmartRF™ Software
   – IAR Embedded Workbench™ Available (Continue ...)
  
APPLICATIONS
2.4-GHz Bluetooth low energy Systems
• Proprietary 2.4-GHz Systems
• Human-Interface Devices (Keyboard, Mouse, Remote Control)
• Sports and Leisure Equipment
• Mobile Phone Accessories
• Consumer Electronics

Part Name(s) : NRF51822 NRF51822-BEACON NRF51822-DK ETC
Unspecified
Description : Multi-protocol Bluetooth low energy and 2.4GHz proprietary System-on-Chip View

[NORDIC]

ULP wireless System-on-Chip
The nRF51822 is a powerful multi-protocol single chip solution for ULP wireless applications. It incorporates Nordic’s latest best-in-class performance radio transceiver, an ARM Cortex M0 CPU and 256kB flash + 16kB RAM memory. The nRF51822 supports Bluetooth® low energy and 2.4 GHz protocol stacks.

KEY FEATURES
• Multi-protocol 2.4GHz radio
• 32-bit ARM Cortex M0 processor
• 256kB flash/16kB RAM
• Software stacks available as downloads
• Pin compatible with other nRF51xxx series devices
• Application development independent from protocol stack
• Fully on-air compatible with nRF24L-series
• Programmable output power from +4dBm to -20dBm
• RSSI
• RAM mapped FIFOs using EasyDMA
• Dynamic on air payload length up to 256 Bytes
• Flexible and configurable 31 pin GPIO
• Programmable Peripheral Interface – PPI
• Simple ON/OFF global power modes
• Full set of digital interfaces including: SPI/2-wire/UART
• 10-bit ADC
• 128-bit AES ECB/CCM/AAR co-processor
• Quadrature demodulator
low cost external crystal 16MHz ± 40ppm
low power 16MHz crystal and RC oscillators
• Ultra low-power 32kHz crystal and RC oscillators
• Wide supply voltage range (1.8 V to 3.6 V)
• On-chip DC/DC buck converter
• Individual power management for all peripherals
• Package options: 48-pin 6x6 QFN

APPLICATIONS
• Bluetooth Smart applications
• Mobile phone accessories
• Computer peripherals
• CE remote controls for TV, STB and media systems
• Proximity and security alert tags
• Sports- and fitness sensors
• Healthcare and lifestyle sensors
• Game controllers for computers
• Toys and Electronic games
• Domestic/Industrial control and data-acquisition
• Smart RF tags for tracking and social interaction
• Audience response system
• Intelligent domestic appliances


Part Name(s) : MB39C811-EVBSK-02 Cypress
Cypress Semiconductor
Description : energy Harvesting Starter Kit for Buck Power Management IC with Bluetooth® Smart (low energy) Beacon View

DESCRIPTION
The MB39C811-EVBSK-02 is an evaluation board that contains energy Harvesting Power Management IC, MB39C811 (Buck DC/DC converter) with Bluetooth® Smart (low energy), which can be used in application on the Solar and Piezoelectric energy Harvester. The MB39C811 has a wide input range from 4V up to 23V, and the output voltages are selectable from 1.5V to 5V. The board contains a Programmable (application block only) Bluetooth® Smart module, Fujitsu Component: MBH7BLZ02-109004, which allows BLE (Bluetooth low energy) Beacon and wireless data communications.
   
FEATURES
■ Installed energy Harvesting Power Management IC: MB39C811
■ Programmable (application block only) Bluetooth® Smart Module: MBH7BLZ02-109004 (*1)
■ Transmit BLE Beacon using Solar energy and Vibration energy only
■ Transmit about 1 second intervals under 500lx
■ Support a lot of energy inputs
    - Solar Cell
    - Piezo Electric
    - USB Bus Power
    - Coin Battery (Expandable: For Hybrid)
    - NFC: Near Field Communication (Expandable: Power supply only)
    - Commercial Power Supply: AC85~265V (Expandable: Need additional resister)
■ Installed Temperature Sensor
■ Installed USB Serial Converter IC for changing Beacon IDs
■ Attached Solar Cell for Evaluation
■ Attached Case & USB Cable
■ Schematic, BOM List, Layout Data, Sample Software
■ Installed Expandable Terminal.
    - Reset Button for MCU (Standard mount)
    - JTAG Connector for MCU Program
    - Expandable Sensor Interface (I2C/GPIO)
    - DIPSW (Expandable)
    - LED (Expandable)
■ Small Size PCB: 45mm × 25mm
   
APPLICATIONS
■ Battery-less BLE Beacon
■ AC Power supply BLE Beacon
■ Wireless Sensor node for IoT
■ BEMS/HEMS/FEMS
■ Active RFID
■ Solar energy Harvesting
■ Wireless Illumination Control
■ Wireless HVAC Sensors
■ Security System
   

Part Name(s) : NRF8002-DK NRF8002-R1Q32-R NRF8002-R1Q32-R7 NRF8002-R1Q32-T NRF8002 ETC
Unspecified
Description : Single-chip Bluetooth® low energy Proximity Solution View

[Nordic Semiconductor]

Introduction
nRF8002 is a single-chip Bluetooth low energy peripheral device for proximity solutions.
With a complete Bluetooth low energy stack along with Proximity, Find Me and, Alert Notification profiles, nRF8002 fulfills the needs for simple phone and PC accessories. It can alert you if your devices go out of range, enable security features like screen lock and give you notice of new events like incoming mail, SMS and, calls. nRF8002 also embeds a configurable application allowing you to use nRFgo Studio to configure device and I/O behavior. The I/O can interface directly with user input and output devices such as buttons, LEDs, buzzers, or vibrators.

Key Features
• Fully qualified Bluetooth low energy 4.0 peripheral device
• Single chip solution for Bluetooth low energy proximity applications
• Integrated Bluetooth low energy profiles and services
• Configurable I/Os for application behavior
• Ultra-low power consumption
• Coin-cell battery operation
low cost 16 MHz ±50 ppm crystal
• On-chip 32 kHz RC oscillator
• Single 1.9-3.6 V power supply
low cost external BOM
• Temperature range -25 to +70°C
• Compact 5x5 mm QFN32 package
• RoHS compliant

Applications
• Proximity applications
• Key fobs
• Watches

Part Name(s) : AS8118 AS8118D18 AS8118S18 AmsAG
austriamicrosystems AG
Description : Single Phase Instantaneous energy Metering IC with On-Chip Calibration, Stepper Motor Drive and LED Output View

Description

The AS8118 is a very accurate single-phase bi-directional instantaneous energy measurement integrated circuit, which surpasses all the accuracy requirements for IEC1036 alternating current static watt-hour meters. The measured energy is converted into pulses with the number of output pulses being proportional to the measured energy.



Features

- Extremely accurate, surpassing the accuracy  requirements of the IEC 1036 Specification less than 0.1% error over a 600 : 1 dynamic range

- On-chip programmable current input gain suitable for use with low-resistance shunt resistor or current transformer

- On-chip programming for output pulse rate selection

- On-chip calibration eliminates the need for an external resistor network or trim-potentiometer

- Programmable on-chip creep prevention under no-load condition

- All on-chip programmable functions may be reprogrammed a second time

- Outputs directly drive an electromechanical counter or counters with a two phase stepper motor and consumption LED indicator

- Fast calibration pulse output for high speed manual or automated calibration

- On-chip voltage reference and power supply monitoring

- Bi-directional or unidirectional energy measurement, with direction indication output available


Part Name(s) : AS8118 AS8118D18 AS8118S18 AMSCO
austriamicrosystems AG
Description : Single Phase Instantaneous energy Metering IC with On-Chip Calibration, Stepper Motor Drive and LED Output View

Description

The AS8118 is a very accurate single-phase bi-directional instantaneous energy measurement integrated circuit, which surpasses all the accuracy requirements for IEC1036 alternating current static watt-hour meters. The measured energy is converted into pulses with the number of output pulses being proportional to the measured energy.



Features

- Extremely accurate, surpassing the accuracy  requirements of the IEC 1036 Specification less than 0.1% error over a 600 : 1 dynamic range

- On-chip programmable current input gain suitable for use with low-resistance shunt resistor or current transformer

- On-chip programming for output pulse rate selection

- On-chip calibration eliminates the need for an external resistor network or trim-potentiometer

- Programmable on-chip creep prevention under no-load condition

- All on-chip programmable functions may be reprogrammed a second time

- Outputs directly drive an electromechanical counter or counters with a two phase stepper motor and consumption LED indicator

- Fast calibration pulse output for high speed manual or automated calibration

- On-chip voltage reference and power supply monitoring

- Bi-directional or unidirectional energy measurement, with direction indication output available


Part Name(s) : CC2533 CC2533F32RHAR CC2533F32RHAT CC2533F64RHAR CC2533F64RHAT CC2533F96RHAR CC2533F96RHAT CC2533F32 CC2533F64 CC2533F96 TI
Texas Instruments
Description : An Optimized System-on-Chip Solution for 2.4-GHz IEEE 802.15.4 Remote Control Applications View

DESCRIPTION
The CC2533 is an optimized System-on-Chip (SoC) solution for IEEE 802.15.4 based remote-control systems. It enables single-chip remote controls to be built with low bill-of-material cost when used as a flexible SoC. It also provides a simple path to adding RF4CE capability to a device or target when used in the wireless network processor configuration of the RemoTI™ RF4CE stack. Robust network nodes can be built with very low total bill-of-material costs.
The CC2533 combines the excellent performance of a leading RF transceiver with a single-cycle 8051 compliant CPU, up to 96-KB in-system programmable flash memory, up to 6-KB RAM, and many other powerful features. The CC2533 has efficient power modes with RAM and register retention below 1 µA, making it highly suited for low-duty-cycle systems where ultralow power consumption is required. Short transition times between operating modes further ensure low energy consumption.

FEATURES
• RF/Layout
   – 2.4-GHz IEEE 802.15.4 Compliant RF
      Transceiver
   – Excellent Receiver Sensitivity and
      Robustness to Interference
   – Programmable Output Power Up to 4.5 dBm
   – Boost-Mode TX at 7 dBm
   – Very Few External Components
   – Only a Single Crystal Needed for
      Asynchronous Networks
   – Space-Saving 6-mm × 6-mm QFN40
      Package
   – Suitable for Systems Targeting Compliance
      With Worldwide Radio-Frequency
      Regulations: ETSI EN 300 328 and EN 300
      440 (Europe), FCC CFR47 Part 15 (US), and
      ARIB STD-T-66 (Japan)
   – Pin- and Software-Compatible With the
      CC2530Fxxx Series
low Power
   – Active-Mode RX (CPU Idle): 25 mA
   – Active Mode TX at 0 dBm (CPU Idle):
      28.5 mA
   – Power Mode 1 (4 ms Wake-Up): 0.2 mA
   – Power Mode 2 (Sleep Timer Running): 1 mA
   – Power Mode 3 (External Interrupts): 0.5 mA
   – Wide Supply-Voltage Range (2 V–3.6 V)
• Microcontroller
   – High-Performance and low-Power 8051
   Microcontroller Core With Code Prefetch
   – 64- or 96-KB In-System-Programmable
      Flash
   – 4- or 6-KB RAM With Retention in All Power
      Modes
   – Hardware Debug Support
• Peripherals
   – Powerful Five-Channel DMA
   – IEEE 802.15.4 MAC Timer, General-Purpose
      Timers (One 16-Bit, Two 8-Bit)
   – IR Generation Circuitry
   – 32-kHz Sleep Timer With Capture
   – CSMA/CA Hardware Support
   – Accurate Digital RSSI/LQI Support
   – Battery Monitor Comparator
   – Random Number Generation
   – AES Security Coprocessor
   – Two Powerful USARTs With Support for
      UART and SPI
   – I2C Interface
   – 23 General-Purpose I/O Pins
   – Watchdog Timer
• Development Tools
   – CC2533 Remote Control Development Kit
      for RF4CE
   – CC2533 Development Kit
   – CC2533EMK Evaluation Modules
   – SmartRF™ Software
   – Packet Sniffer
   – IAR Embedded Workbench™ Available

APPLICATIONS
• ZigBee™ RF4CE Remote Control Target and
   Device
2.4-GHz IEEE 802.15.4 Systems Based on
   TIMAC or SimpliciTI™ Network Protocol
• Consumer Electronics
• Electronic Shelf Labeling

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