WIRELESS
Smart Meter
With the introduction of these recent innovations, metering devices can be transformed into smart meters which have abundant functions, is easy to read and capable of transmitting data on electricity, water & gas remotely.
A smart meter is typically composed of sensors, signal conditioning and collection, MCU, communication, display and smart card reader. The different smart meters require different sensors. Energy meters need voltage and current sensors.
Water meters need flow sensors to measure flowing fluid. Heat meters need both flow sensors and temperature sensors. Gas meters need airflow sensors, temperature sensors and pressure sensors. Signal Conditioning and collection blocks are used to adjust and amplify the small signals from sensors and convert into digital signals that MCU can use. MCU is the core of a smart meter, responsible for the control of all the functions such as display, communication, calculation based on measured data, smartcard reading, and time-division charge. Smart meters usually use LCD for the display of readings and alarm information. Depending on different requirements and management modes, one of the wired communication methods such as CAN and RS485 can be selected for smart meters, and a wireless communication method such as Zigbee can be adopted. Smart card readers on smart meters make it possible to realize prepaid usage for utilities and customers.
Hover over the blocks to view recommended products for this solution:
High precision semiconductor temperature sensor.
Click for full parts list
High precision semiconductor temperature sensor.
Click for full parts list
Pressure sensors with measuring range over 100kPa.
Click for full parts list
Current Sensor used in energy meter.
Click for full parts list
High precision amplifier is the core chip of signal conditioning circuit.
Click for full parts list
High performance ADC converter analogue signals into digital signals
Click for full parts list
Low power MCU is control unit of the meter
Texas Instruments
Microchip
NXP
Click for full parts list
Analog Front End IC used in energy metereing applications
Click for full parts list
LCD Display
Click for full parts list
Voltage Reference
Click for full parts list
CAN/RS485
Microchip
Murata Power Solutions
Analog Devices
Click for full parts list
 | DEMO9S08LC60 | Buy Now |
 | DEMO9S08MP16 NXP The DEMO9S08MP16 is a low cost development system supporting MC9S08MP16 Microcontrollers. | Buy Now |
 | MSP430-4619LCD Olimex MSP430-4619LCD is MPS430FG4619 starter kit development board with color graphics LCD, accelerometer, JTAG, SD/MMC card holder, joystick, two buttons, serial infrared transceiver and extension headers for most of the microcontroller pins. | |
 | MSP-EXP430FG4618 Texas Instruments This versatile MSP430 Experimenter Board features a MSP430F2013 and a MSP430FG4618 and is compatible with TI’s wireless evaluation modules. | Buy Now |
 | CC2420EMK Texas Instruments The CC2420 is a true single-chip 2.4 GHz 802.15.4 compliant RF transceiver designed for low-power and low-voltage wireless applications. | Buy Now |
 | AC164134-2 Microchip The MRF24J40MB PICtail/PICtail Plus Daughter Board is a demo/development board for the MRF24J40MB 2.4GHz IEEE Std. 802.15.4™ 20 dBm RF Tranceiver Module. The board plugs into multiple Microchip Demo/development boards, such as the PIC18 Explorer Board (DM183032) or the Explorer 16 Develpopment Board (DM240001). | Buy Now |
 | JN5148-001-M04 JENNIC/NXP The JN5148-001-Myy modules are targeted at low-power wireless networking applications, removing the need for lengthy development of custom RF board designs and test suites. They use JN5148 wireless microcontroller to provide a comprehensive solution. JN5148-001-M04 comes with an antenna connector, power amplifier and LNA for extended range. All modules can run networking stacks such as JenNet and ZigBee PRO as well as customer applications. | |
 | ATZB-A24-UFLR ATMEL This is 2.4 GHz Power Amplified OEM Module with U.FL Antenna Connector. The module is compatible with IEEE 802.15.4/ZigBee stack supporting a self-healing, selforganizing mesh network, while optimizing network traffic and minimizing power consumption. |
| TEXAS INSTRUMENTS | MCU | Ultra-Low Power Motion Detection Using the MSP430F2013 | MSP430F4XX | Click Here | |
| TEXAS INSTRUMENTS | MCU | Three-Phase Electronic Watt-Hour Meter Design Using MSP430 | MSP430F4XX | Click Here | |
| MICROCHIP | MCU | AN1267 - nanoWatt & nanoWatt XLP(TM) Technologies: An Introduction to Microchip's Low Power devices | PIC16F193x | Click Here | |
| MICROCHIP | MCU | AN1303 - Software Real-Time Clock and Calendar Using PIC16F1827 | PIC16F193x | Click Here | |
| NXP | MCU | LCD Driver Specification | MC9S08LL16 | Click Here | |
| NXP | MCU | Emulated EEPROM Implementation in Dual Flash Architecture and Demo Description on MC9S08LG32 | MC9S08LL16 | Click Here | |
| TEXAS INSTRUMENTS | MCU | A Low-Cost Single-Phase Electricity Meter Using MSP430C11x | MSP430C11x | Click Here | |
| TEXAS INSTRUMENTS | MCU | Using GMR Sensors With the MSP430 Scan Interface | MSP430FXX | Click Here | |
| TEXAS INSTRUMENTS | MCU | Rotary/Linear Motion Detection Using the MSP430 Scan Interface & Optical Sensors | MSP430FXX | Click Here | |
| TEXAS INSTRUMENTS | MCU | Current Transformer Phase Shift Compensation and Calibration | MSP430FXX | Click Here | |
| Microchip | PIC18F2520 MCP3909 3-Phase Energy Meter Reference Design | AN1151 | Click here | ||
| Microchip | IEC Compliant Active-Energy Meter Design Using the MCP3905A/6A | AN994 | Click here | ||
| Microchip | Designing Energy Meters with the PIC16F873A | AN939 | Click here | ||
| Manufacturer | Product Type | AN Title | AN Number | Part Number | URL |
|---|
| TEXAS INSTRUMENTS | MCU | MSP430 Value Line LaunchPad Development Kit | Click Here |
| NXP | MCU | S08LL16PWRCMPWP | Click Here |
| Manufacturer | Product Type | White Paper Title | URL |
|---|
| NXP | MCU | Demonstration board for the DEMO9S08LC60 microcontroller | DEMO9S08LC60 | 9S08LC60 | Click Here |
| NXP | MCU | S08MP16 Demonstration board | DEMO9S08MP16 | 9S08MP16 | Click Here |
| OLIMEX | MCU | MPS430F169 STARTERKIT DEVELOPMENT BOARD WITH GRAPHICS LCD | MSP430-169LCD | MPS430FXX | Click Here |
| OLIMEX | MCU | MPS430F449 STARTERKIT DEVELOPMENT BOARD | MSP430-449STK2 | MPS430FXX | Click Here |
| OLIMEX | MCU | MPS430FG4619 STARTERKIT DEVELOPMENT BOARD WITH COLOR GRAPHICS LCD,ACCELEROMETER | MSP430-4619LCD | MPS430FXX | Click Here |
| TEXAS INSTRUMENTS | MCU | MSP430 Wireless Development Tool | EZ430-RF2500 | MSP430FXX | Click Here |
| TEXAS INSTRUMENTS | MCU | MSP430 2.4-GHz Wireless Target Board | EZ430-RF2500T | MSP430FXX | Click Here |
| Manufacturer | Product Type | Evaluation Kits Title | EVKs Part Number | Part Number | URL |
|---|
| NXP | MCU | Getting Started with RS08 MCUs | Click Here | |
| NXP | MCU | S08SF 8 Bit Microcontrollers and Development Kits | Click Here | |
| LINEAR TECHNOLOGY | RF | Study on 0.4GHz to 2.7GHz High Linearity Upconverting Mixer | Click Here | |
| MICROCHIP | MCU | PIC18F2XK20/4XK20 8-Bit Microcontroller Family | Click Here | |
| MICROCHIP | MCU | An Introduction to nanoWatt XLP: PIC18F46J50 | Click Here | |
| MICROCHIP | MCU | 8-Bit CMOS Microcontrollers With nanoWatt Technology | Click Here | |
| TEXAS INSTRUMENTS | MCU | Getting Started with MSP430 MCUs | Click Here | |
| TEXAS INSTRUMENTS | RF | eZ430-Chronos Wireless Watch Development Tool | Click Here | |
| Manufacturer | Product Type | Training Title | Part Number | URL |
|---|