NCN49597 Power Line Communication Modem The NCN49597 is a powerful spread frequency shift keying (SFSK) communication systemonchip (SoC) designed for communication in hostile environments. www.onsemi.com It combines a low power ARM Cortex M0 processor with a high precision analogue front end. Based on 4800 baud SFSK dualchannel technology, it offers an ideal compromise between speed and robustness. Pincompatible with its predecessor, the AMIS49587, this new generation chip extends the communication frequency range to cover all CENELEC bands for use in applications such as emetering, home 152 automation and street lighting. The NCN49597 benefits for more than QFN52 8x8, 0.5P 10 years of field experience in emetering and delivers innovative CASE 485M features such as a smart synchronization and inband statistics. Fully reprogrammable, the modem firmware can be updated in the field. Multiple royaltyfree firmware options are available from MARKING DIAGRAM ON Semiconductor refer to the separate datasheets for details. The 52 configurable GPIOs allow connecting peripherals such as LCDs or 1 metering ICs. XXXXYZZ Features NCN 49597 C597901 Power Line Communication (PLC) Modem for 50 Hz, 60 Hz and DC Mains Embedded ARM Cortex M0 Processor XXXX = Date Code 10 General Purpose IOs Controllable by Software Y = Plant Identifier Embedded 32 kB RAM ZZ = Traceability Code Embedded 2 kB ROM Containing Boot Loader Hardware Compliant with CENELEC EN 500651 and EN 500657 ORDERING INFORMATION Half Duplex SFSK Channel, Data Rate Selectable: See detailed ordering and shipping information in the package 300 600 1200 2400 4800 baud ( 50 Hz) dimensions section on page 29 of this data sheet. 360 720 1440 2880 5760 baud ( 60 Hz) Programmable Carrier Frequencies in CENELEC A, B, C and D Band UART for Interfacing with an Application Microcontroller Power Supply 3.3 V Wide Junction Temperature Range: 40C to +125C Available Firmware Options Typical Applications IEC Fully IEC6133451, IEC 61334432 and AMR: Remote Automated Meter Reading Linky Compliant Building Automation ONPL110 Mesh Networking with Collision Solar Power Control and Monitoring Avoidance and Error Correction Street Light Control and Monitoring Complete Handling of Protocol Layers (physical, Transmission of Alerts (fire, gas leak, water leak) MAC, LLC) Repetition Boosting Robustness and Range of the Communication (IEC firmware) Semiconductor Components Industries, LLC, 2015 1 Publication Order Number: August, 2015 Rev. 3 NCN49597/DNCN49597 APPLICATION Application Example 3V3 A 3V3 D C R 8 6 R8 R7 C C16 17 C 6 12V 3V3 D U1 C C 9 7 12V R 12 VCC U B Vuc OutA 2 D 1 C3 6 12 5 7 19 MAINS R R TX OUT 5 4 TXD 4 R Application 10 A 8 NCS5651 OutB RXD Micro C 9 3 4 +A D2 BR0 Controller 10 11 1 13 2 20 14 15 BR1 +B Vcom Rlim 3V3 D VEE C GNDuC Vwarn 10 R9 RESB R14 C5 NCN49597 C 11 TX ENB Tr R 2 RX OUT 1:2 C C 2 1 R 3 D 3 VDD1V8 RX IN D 4 R1 C 3V3 A 15 SEN REF OUT C DREF D 5 R EXT CLK E 11 ZC IN C 12 Y1 C13 C14 Figure 1. Typical Application for the NCN49597 SFSK Modem Figure 1 shows an SFSK PLC modem built around the order low pass filter built around the NCS5651 power nd rd NCN49597. The design is a good starting point for a operational amplifier suppresses the 2 and 3 harmonics CENELEC. EN 500651compliant system for further to be in line with the CENELEC EN500651 specification. information refer to the referenced design manual. The filter components are tuned for a space and mark This design is not galvanically isolated safety must be frequency of 63.3 and 74 kHz respectively. The output of the considered when interfacing to a microcontroller or a PC. amplifier is coupled through DC blocking capacitor C to 10 a 2:1 transformer Tr. The high voltage capacitor C couples For synchronization the mains is coupled in via a 1 M 11 the secondary of this transformer to the mains. resistor the Schottky diode pair D clamps the voltage 5 within the input range of the zero crossing detector. Highenergetic transients from the mains are clamped by nd In the receive path a 2 order high pass filter blocks the the protection diode combination D , D , together with D , 3 4 1 mains frequency. The corner point defined by C , C , R D . 1 2 1 2 th and R is designed at 10 kHz. In the transmit path a 3 2 www.onsemi.com 2 Enable XTAL IN VDDA XTAL OUT VSSA VSS VDD