Hartcran House, 231 Kenton Lane, Harrow, Middlesex, HA3 8RP, England Tel: +44 (0) 20 8909 9595, Fax: +44 (0) 20 8909 2233, www.radiometrix.com NBEK Narrow Band Module Evaluation Kit Narrow Band Evaluation Kit (NBEK) can be used to evaluate all Narrow Band Multichannel and Single frequency DIL version modules. Radio modules can be assessed for their suitability in terms of wireless operating range, functionality, reliability and robustness in a multi-user environment with several other modules on different channels. Built in Control44, I1200 modes allow user to evaluate the performance of Radiometrix narrow band modules in a typical Remote Control and data transmission application in an industrial environment. Issue 1, 30 July 2012 Figure 1: Main controller board + xx2M series carrier board Features RF module range testing Noise and interference identification Antenna type evaluation Analogue and digital data transmission 4 Data channel remote control 1200 baud dumb modem Setup is simple as Plug-and-Play RS232 Serial port interface for frequency/channel configuration RS232 Serial port interface for 1200 baud dumb modem Access to internal diagnostic/Test modes using HyperTerminal Access to each data/control pins for external interface or testing Contents 2 Controller board 2 Carrier boards according to modules ordered separately o BiM/SMX series (BiM1, NiM2, BiM2A, BiM3B, SMX1 and SMX2) carrier board o xx2M series (TX1M/RX1M, TX2M/RX2M, TR1M and TR2M) carrier board o LM series (LMT1/LMR1 and LMT2/LMR2) carrier board o TLC2H /RLC2H and HVR2 carrier board o SIL series modules (e.g. HX1, NTX2 / NRX2, TX3H/RX3A etc.) carrier board o USX / UHX carrier boards 1 Pair of Radiometrix multichannel or single frequency TX/RX or transceivers (ordered separately) 2 9V alkaline battery (PP3) 10 Jumpers 1 Narrow Band Evaluation Kit manual 1 Data sheet of Radio module ordered 2 1/4 wavelength monopole antenna with BNC connector for 433MHz operation 2 Helical antennas with BNC connector for 151MHz / 173MHz (optional) Radiometrix Ltd Page 1 Narrow Band Evaluation Kit Manual Configuring the Narrow Band Multi-channel Evaluation Kit One of the Evaluation Kit should be assigned as transmitter and other as receiver. Jumpers on the main controller board LK1 Inserted Removed LK2 D0 D1 D2 D3 Connects R1=2.2kΩ across TXD and GND pins R18=1.5kΩ in series with TXD. 3V CMOS Data Input to Transmitter. Only being fitted for 3VPk-Pk input only modules (BiM1, NiM2, TX1, NTX2 etc) 5V CMOS Data Input to Transmitter Jumper inserted: 0V (logic ‘0’) and LED ON; Jumper removed: 5V (logic ‘1’) Selects Data Bit0 value during Control44 encoder mode Selects Data Bit1 value during Control44 encoder mode Selects Data Bit2 value during Control44 encoder mode Selects Data Bit3 value during Control44 encoder mode Jumpers on the carrier board: XX2M series LK3 LK4 LK5 Slide yellow coloured switches to ON position marked by arrow for TX1M, TX2M Remove for RX1M, RX2M, TR2B, TR2M TXE from controller routed to TXE pin on TX2M (SQF pin on RX2M, TR2M) TXD from controller routed to TXD pin on TX2M, (AFOUT pin on RX2M, TR2M) AFIN from controller routed to AFIN pin on TX2M (RXD pin on R2M, TR2M) Switches MODE (yellow) 0 1 2 3 4 5 6 7 8 9 A B C D E F H=VDD L=0V (inverted logic) M3 M2 M1 M0 HHHH Receiver ON HHHL Un-modulated Transmission for testing carrier frequency, power, spurii HHLH 250Hz (500bps) square wave Modulated Transmission HHLL 1250Hz (2.5kbps) square wave Modulated Transmission HLHH Pseudorandom NRZ stream modulated Transmission HLHL Transmitter and Receiver turned ON and OFF periodically at 100ms interval HLLH RESERVED for future use HLLL RESERVED for future use LHHH Continuous Control44 Transmission of Address=0 and Data=D3, D2, D1, D0 LHHL Control44 Transmission of Address=0 and Data=D3, D2, D1, D0 If either Data is changed or RESET (Trigger) switch is pressed. LHLH Control44 Reception with Momentary Output. (paired with Mode 8) LHLL Control44 Reception with Latched Output. (paired with Mode 9) LLHH Transmits CTR44 Test Packet, Receive Echoed Packet (Radar Mode – Master) LLHL Receive CTR44 Test Packet, Re-transmit it back to Sender (Echo Mode – Slave) LLLH I1200 type 1200 baud Dumb Modem for bit balanced serial data transmission LLLL RESERVED for future use Notes: 1. Mode C, D require Transceiver 2. In Mode C, a test packet is transmitted, then the unit switches to Receive mode for 100ms before repeating. 3. Data sequence of 8 (D3=L, D2=H, D1=H, D0=H), 4, 2, 1 (D3=H, D2=H, D1=H, D0=L) is cycled through with each transmission. 4. In Mode D, the unit idles in Receive mode. When a valid CTR44 burst is received the unit keys up the Transmitter and re-transmits this CTR44 burst back to sender in Mode C. 5. The 'modem' mentioned (Mode E) is a 1200 baud RS232 semi-intelligent unit (Transmit keyed when valid serial data is present, so no separate TX control needed. Coding in the datastream also permits the receiver to ignore noise and only output valid serial data). This is a half duplex unit, so collisions between transmitted and received packets must be dealt with by the user. Radiometrix Ltd Page 2 Narrow Band Evaluation Kit Manual CHANNEL (blue) 0 1 2 ….. 7 8 xx2M, SMX H=4V, L=0V Hex Switch P2=H, P1=H, P0=H P2=H, P1=H, P0=L P2=H, P1=L, P0=H …… P2=L, P1=L, P0=L Not in Use (Appears as Channel 0) LM Series Units H=3V, L=0V Hex Switch P3=H P2=H, P1=H, P0=H P3=H, P2=H, P1=H, P0=L P3=H, P2=H, P1=L, P0=H TLC/RLC/HVR H=3.5V, L=0V Hex Complement Switch P3=L, P2=L, P1=L, P0=L P3=L, P2=L, P1=L, P0=H P3=L, P2=L, P1=H, P0=L P3=H, P2=L, P1=L, P0=L P3=L, P2=H, P1=H, P0=H P3=L, P2=H, P1=H, P0=H P3=H, P2=L, P1=L, P0=L …… E (14) Not in Use (Appears as P3=L, P2=L, P2=L, P0=H P3=H, P2=H, P1=H, P0=L Channel 6) F (15) Not in Use (Appears as P3=L, P2=L, P1=L, P0=L P3=H, P2=H, P1=H, P0=H Channel 7) Note: channel switch to be set to 0 (LMR, LMT) or F (RLC, TLC, HVR) when serial (RS232) programming the unit, as 'P0' is also 'serial program in'. User Test Points Pin 5V AFIN TXD TXE RXD AFOUT SQF RSSI Description 5V, 1A Low Dropout Voltage Regulator Output Transmit Input for 1Vpk-pk Audio Frequency (Analogue) Signal using TX1M, TX2M, TR2M Set to MODE 1, to feed external Analogue Signal Transmit Input for Digital (Binary) Data driven by onboard microcontroller Set to MODE 1, to feed external 5V CMOS level Digital Data Active Low Transmit Enable driven by onboard microcontroller Received (Digital) Data Output from Radio Module Open Collector output from module pulled up to 5V using R4=10kΩ Audio Frequency (Demodulated Buffered Analogue) Signal Active Low Squelch Function when RF Carrier is not present Open Collector output pulled up to 5V using R1=22kΩ on RX1M, RX2M, TR2M Carrier Board Connected to Q5 (NPN transistor) via R4=330kΩ base resistor to turn on Carrier Detect LED. Received Signal Strength Indicator Visual Indicators LED D0 D1 D2 D3 STATUS ON CD Colour Red Red Red Red Bright Yellow Green Bright Orange Description Data Bit0 output indicator during Control44 decoder mode Data Bit1 output indicator during Control44 decoder mode Data Bit2 output indicator during Control44 decoder mode Data Bit3 output indicator during Control44 decoder mode STATUS indicator – Transmitter Active or Valid Data received Evaluation Kit powered with correct polarity power supply Carrier Detect indicator for RX1M, RX2M or TR2M derived from SQF output Connectors Pin DC socket PROG MODEM PP3 SNAP SIL socket Radiometrix Ltd Description 2.1mm power socket; when a power supply jack is inserted, a mechanical switch disconnects the battery negative Connect to COM port of a PC using straight DB9M-DB9F serial cable to configure the channel and frequency of a multichannel module Hyper Terminal setting: 2400 baud, none parity, 8 data bits, 1 stop bit, none flow control Connect to COM port of a PC using straight DB9M-DB9F serial cable to evaluate serial data transmission through a radio module using onboard 1200 baud dumb modem. Hyper Terminal setting: 1200 baud, none parity, 8 data bits, 1 stop bit, none flow control 8.4V NiMH or 9V Alkaline PP3 type battery Appropriate radio module carrier board is inserted into the socket and secured with 4 short spacers Page 3 Narrow Band Evaluation Kit Manual Note: The carrier board should always be firmly bolted down to the main controller board mounting studs at all four corners, or the grounding of the carrier board will be compromised. This is especially important when high power transmitters are used with the aerial connected directly onto the BNC. In this case, any mismatch will cause significant ground currents to flow. Figure 2: Main controller board component layout Figure 3: xx2M series carrier board Figure 4: BiM / SMX series carrier board Radiometrix Ltd Page 4 Narrow Band Evaluation Kit Manual Figure 5: LM series carrier board Figure 6: TLC2H/RLC2H and HVR2 carrier board Figure 7: SIL series module carrier board Figure 8: MSR or COR series module carrier board Radiometrix Ltd Page 5 Narrow Band Evaluation Kit Manual Figure 8: UHX1 module carrier board Figure 9: USX2 module carrier board Radiometrix Ltd Page 6 Narrow Band Evaluation Kit Manual Radiometrix Ltd Page 7 Narrow Band Evaluation Kit Manual Figure 10: Schematics of main controller board Radiometrix Ltd Page 8 Narrow Band Evaluation Kit Manual Narrow band Eval Kit controller IC The NBEK controller IC can also be ordered separately with equal number of radio modules. TXD NC STATUS TXE OSC1 RESET OSC2 Vss (0V) Remote control Data bits serial data I/O RXD Vdd D0 M3 RSTXD/D1 M2 mode select bits M1 M0 D3 Figure 11: NBEK-000-DIL pinouts Ordering Information (IC): NBEK-000-SS - Shrink Small Outline NBEK-000-SO - Small Outline NBEK-000-DIL - Plastic Dual In Package Radiometrix Ltd Page 9 Narrow Band Evaluation Kit Manual Radiometrix Ltd Hartcran House 231 Kenton Lane Harrow, Middlesex HA3 8RP ENGLAND Tel: +44 (0) 20 8909 9595 Fax: +44 (0) 20 8909 2233 [email protected] www.radiometrix.com Copyright notice This product data sheet is the original work and copyrighted property of Radiometrix Ltd. Reproduction in whole or in part must give clear acknowledgement to the copyright owner. Limitation of liability The information furnished by Radiometrix Ltd is believed to be accurate and reliable. Radiometrix Ltd reserves the right to make changes or improvements in the design, specification or manufacture of its subassembly products without notice. Radiometrix Ltd does not assume any liability arising from the application or use of any product or circuit described herein, nor for any infringements of patents or other rights of third parties which may result from the use of its products. This data sheet neither states nor implies warranty of any kind, including fitness for any particular application. These radio devices may be subject to radio interference and may not function as intended if interference is present. We do NOT recommend their use for life critical applications. The Intrastat commodity code for all our modules is: 8542 6000 R&TTE Directive After 7 April 2001 the manufacturer can only place finished product on the market under the provisions of the R&TTE Directive. Equipment within the scope of the R&TTE Directive may demonstrate compliance to the essential requirements specified in Article 3 of the Directive, as appropriate to the particular equipment. Further details are available on The Office of Communications (Ofcom) web site: http://www.ofcom.org.uk/ Information Requests Ofcom Riverside House 2a Southwark Bridge Road London SE1 9HA Tel: +44 (0)300 123 3333 or 020 7981 3040 Fax: +44 (0)20 7981 3333 [email protected] European Communications Office (ECO) Peblingehus Nansensgade 19 DK 1366 Copenhagen Tel. +45 33896300 Fax +45 33896330 [email protected] www.ero.dk