Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Ultra Narrow Band High Power RF Module at 169/433/444/458/463/467/868 MHz Product Description The RC17xxHP are a family of compact surface-mounted modules that measure only 12.7 x 25.4 x 3.7 mm. The module contains a communication controller with embedded RC232 software and is pre-certified for operation under the European regulations (for applicable bands). Custom variants can be offered in dedicated bands within the 169 - 870 MHz frequency range. How to use the embedded RC232 protocol is described in the RC17xxHP-RC232 User Manual. Applications * Industrial remote controls * Long range sensor applications * Automatic Meter Reading * Asset Tracking * Telemetry stations * Fleet management Features * Long range, high reliability * Ultra narrowband, high-performance radio * High sensitivity and high selectivity * High blocking properties * High RF Power, long range (up to 20 km Line-Of-Sight) * Completely shielded module * Pin compatible with the low cost family RC11XX (including -MBUS, -KNX, -TM and RC232 versions) and 2.4 GHz versions RC2500/2500HP from Radiocrafts * 12.7 x 25.4 x 3.7 mm compact module for SMD mounting * 2.8 - 3.6 V supply voltage (additional 5V required for 433-868 MHz HP versions with setting +27 dBm) * Ultra low power modes * Conforms with EU RED directive (EN 300 220, EN 301 489, EN 60950) Quick Reference Data Parameter Frequency bands Data rate Max output power Sensitivity, (1.2 kbps) Supply voltage VCC Supply voltage Internal PA Current consumption, RX /IDLE Current consumption, TX (+27 dBm) Current consumption, SLEEP Temperature range RC17xxHP-RC232 169/433/444/458/463/467/868 1.2 -100 + 27 dBm -118 2.8 - 3.6 VCC_PA* 31,7 407 Max 2.0 -30 to +85 Unit MHz kbps dBm dBm Volt mA mA uA C *Voltage range on VCC_PA depends on module variant. (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 1 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Part Name Overview RC module RC1701HP-RC232 RC1740HP-RC232 RC1760HP-RC232 RC1780HP-RC232 RC1701-RC232* RC1740-RC232* RC1760-RC232* RC1780-RC232* Frequency bands 169 MHz 433 / 444 MHz 458 / 463 / 467 MHz 868 MHz 169 MHz 433 / 444 MHz 458 / 463 / 467 MHz 868 MHz Max output power +27 dBm +27 dBm +27 dBm +27 dBm +15 dBm +15 dBm +15 dBm +15 dBm VCC_PA VCC (3.3V) 5V 5V 5V Not connect Not connect Not connect Not connect *Low Power variant available on request Typical application Circuit: Note that the VCC_PA pin supply the internal power amplifier only, while the rest of the internal block runs on VCC. They can be connected together or separated using individual supply. If VCC_PA is connected together with VCC, the max output power is reduced to +24 dB for all modules except RC1701HP that support +27 dBm at VCC_PA = 3.3 V. For all low power variant the VCC_PA pin can be left open. Quick Introduction to the RC232 embedded protocol How do I transmit data? Send your data to the RXD pin on the module. Use the UART format with settings (19200, 8, 1, N, no flow control). Up to 127 of payload bytes are buffered in the module. The module will transmit the data when * the max packet length is reached * the unique end character is sent * the modem timeout limit is reached The packet length, end character and timeout limit are configurable in-circuit. How do I receive data? Any received data packet with correct address and check sum will be sent on the TXD pin using the same UART format as for transmit. (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 2 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 What about the antenna? In most cases a simple quarter wavelength wire or a PCB track will do. Connect a piece of wire to the RF pin with length corresponding to the quarter of a wavelength. For space limited products, contact Radiocrafts and we will recommend the best antenna solution for your application. How do I change the RF channel or any other parameter? To change configurable parameters, assert the CONFIG pin, and send the command string using the same serial interface as for transmitting data. Parameters can be changed permanently and stored in non-volatile memory in the module. RC232TM Embedded Protocol The module offers a buffered packet radio in the RC232TM embedded protocol. Using the buffered packet radio mode, all data to be sent is stored in the module before they are transmitted by the RF circuitry. Likewise, when data is received they are stored in the module before they are sent to the host. This allows the communication controller to add address information and to do error check of the data. In buffered mode the UART interface is used to communicate with the host. The embedded protocol, configuration commands and configuration memory is described in the RC17xxHP-RC232 User Manual. This protocol is used in a wide range of RF modules available from Radiocrafts. Please refer to the latest revision of the RC232 User Manual for feature details. RCTools RCTools is a powerful and easy to use PC suite that helps you during test, development and deployment of the RC17xxHP-RC232. Visit www.radiocrafts.com for a free download and full documentation. (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 3 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 RF Frequency, Output Power Levels and Data Rates The following table shows the available RF channels and their corresponding frequencies, nominal output power levels and available data rates (Bold is default setting). Model RC17xxHP-RC232 RC17xx-RC232* Data rate 1: TBD 2: 0.3 kbit/s 3: 0.6 kbit/s 4: 1.2 kbit/s 5: 2.4 kbit/s 6: TBD 7: 4.8 kbit/s 8: 9.6 kbit/s 9: 9.6 kbit/s 10: 19.2 kbit/s 11: TBD 12: 38.4 kbit/s 13: 50 kbit/s 14: 76.8 kbit/s 15: 100 kbit/s Channel Modulation 12.5 kHz 12.5 kHz 12.5 kHz 12.5 kHz 2GFSK 2GFSK 2GFSK 2GFSK 12.5 kHz 12,5 kHz 25 kHz 50 kHz 2GFSK 4GFSK 2GFSK 4GFSK 100 kHz 100 kHz 200 kHz 200 kHz 2GFSK 2GFSK 2GFSK 2GFSK *Available on request Model RC17xxHP-RC232 RC17xx-RC232* Output power 5: +27 dBm 4: +24 dBm 3: +20 dBm 2: +17 dBm 1: +14 dBm 5: +15 dBm 4: +12 dBm 3: +7 dBm 2: +4 dBm 1: +0 dBm *Available on request The use of RF frequencies, maximum allowed RF power and duty-cycles are limited by national regulations. The RC17xxHP-RC232 and RC17xx-RC232 are complying with the applicable directives within the European Union when used within these limitations. Note: Max output power (+27 dBm) @ 868 MHz are in EU limited by ERC/REC 70-03 to operate in sub band 869.40 - 869.65 MHz. RC1780HP has 10 high power channels (ch 5766) inside this sub band that allow max output power (+27 dBm). RC1780HP high power (+27 dBm) channels in EU: Channel 57 869.412500 MHz Channel 58 869.437500 MHz Channel 59 869.462500 MHz Channel 60 869.487500 MHz Channel 61 869.512500 MHz (default channel) Channel 62 869.537500 MHz Channel 63 869.562500 MHz Channel 64 869.587500 MHz Channel 65 869.612500 MHz Channel 66 869.637500 MHz (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 4 of 17 Radiocrafts Embedded Wireless Solutions Model RC1701HP-RC232 RC1701-RC232* RC1740HP-RC232 RC1740-RC232* RC17xxHP-RC232 RF channel 1: 169.406250 MHz 2: 169.418750 MHz 3: 169.431250 MHz 4: 169.443750 MHz 5: 169.456250 MHz 6: 169.468750 MHz 7: 169.412500 MHz 8: 169.437500 MHz 9: 169.462500 MHz 10: 169.437500 MHz 433.0525 + n*0.025 MHz n = RF_CHANNEL for n=1 to 69 429.45 for RF_CHANNEL = 70 439.675 + (n-70)*0.025 MHz n = RF_CHANNEL for n=71 to 82 RC1760HP-RC232 RC1760-RC232* 444.000000 MHz for RF_CHANNEL = 83 444.050000 MHz for RF_CHANNEL = 84 444.400000 MHz for RF_CHANNEL = 85 444.450000 MHz for RF_CHANNEL = 86 444.550000 MHz for RF_CHANNEL = 87 444.675000 MHz for RF_CHANNEL = 88 444.700000 MHz for RF_CHANNEL = 89 444.250000 MHz for RF_CHANNEL = 90 433.950000 MHz for RF_CHANNEL = 91 434.000000 MHz for RF_CHANNEL = 92 434.050000 MHz for RF_CHANNEL = 93 458.512500 + (n-1)*0.0125 MHz n = RF_CHANNEL for n=1 to 39 457.4875 + (n-39)*0.0125 MHz n = RF_CHANNEL for n=40 to 119 462.9875 + (n-119)*0.0125 MHz n = RF_CHANNEL for n=120 to 230 RC1780HP-RC232 RC1780-RC232* 467.4875 + (n-230)*0.0125 MHz n = RF_CHANNEL for n=231 to 239 867.9875 + n*0.025 MHz n = RF_CHANNEL for n=1 to 80 870.075000 MHz for RF_CHANNEL = 81 870.550000 MHz for RF_CHANNEL = 82 870.600000 MHz for RF_CHANNEL = 83 870.650000 MHz for RF_CHANNEL = 84 Default RF_CHANNEL=61 See note page 4 on high power channels in EU *Available on request (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 5 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Block Diagram VCC VCC_PA MCU Application (option) UART interface RC232 Embedded protocol 32 kHz Real Time Clock (option) EEPROM Narrow Band RF Tranceiver High Power front end (PA + Switch + filter) TCXO (option) Circuit Description The module contains a communication controller with embedded RC232 protocol software and a high performance narrow band RF transceiver. As an option the module can support a real time clock oscillator and EEPROM memory for application specific products. The communication controller handles the radio packet protocol, the UART interface and controls the RF transceiver. Data to be sent by the host is received at the RXD pin and buffered in the communication controller. The data packet is then assembled with preamble, start-of-frame delimited (SOF), address information and CRC check sums before it is transmitted on RF. The RF transceiver modulates the data to be transmitted on RF frequency, and demodulates data that are received. Digital signal processing technology is used to enhance sensitivity and selectivity. The high power front end amplifies the signal up to +27 dBm and advanced filtering topology is included to suppress harmonics and spurs. Received data are checked for correct CRC by the communication controller. If no CRC errors were detected, the data packet is sent to the host on the TXD line. The data format is configurable, and optionally an RSSI value (signal strength of received packet) can be added to the message. The asynchronous UART interface consists of RXD and TXD. Optionally CTS or RTS can be used for hardware handshake flow control. When the CONFIG pin is asserted, the module enters configuration mode and the communication controller interprets data received on the RXD pin as configuration commands. There are commands to change the radio channel, the output power, etc. Permanent changes of the configuration is also possible and are then stored in internal nonvolatile memory (Flash). The supply voltage is connected to the VCC and VCC_PA pin. The module contains an internal voltage regulator for the RF transceiver and can therefore operate over a wide supply voltage range. The module can be set in Sleep mode by UART or pin commands to reduce the power consumption to a minimum. (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 6 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Pin Assignment Pin Description Pin no 1 2 3 4 5 6 7 8 9 10 11 12 13 14 41 Pin name Description GND CTS/RXTX RTS/SLEEP CONFIG TXD RXD GND GND RF GND VDD Reset VCC GND VCC_PA 15-22 23-30 31-40 42 I/O System ground UART Clear to Send / RXTX control (RS485) UART Request to Send Configuration Enable. Active low. UART TX Data UART RX Data System ground System ground RF I/O connection to antenna System ground Not Connected, Internal Regulator Output RESET_N. Active Low Supply voltage input. Internally regulated. System ground Supply voltage input for Power Amplifier stage. Connect to 5V or VCC for RC17x0HP and leave open for RC17xx. When VCC_PA connected to VCC (3.3V) for RC17x0HP the max output power is limited to +24 dBm. For RC1701HP the VCC_PA has the same voltage range as VCC, and support +27 dBm at 3.3 V. For future use and test status pin, Do not connect (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 7 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Application circuit A typical application circuit is shown where a MCU is connected to the Radiocrafts module. In normal cases the UART (CTS/RTS is optional) and RESET line is connected to a host MCU running the application. CONFIG pin is needed to set the RC232 modules into configuration mode. Pin 29/30 are LED drivers and D1/D2 can be mounted (optional) for debugging (State information). MCU considerations Some additional external components is needed depending on MCU output driver properties connected to the Radiocrafts module. If the RESET is driven by a push-pull output, an additional 0 ohm series resistor (R4) shall be inserted as shown in the figure, to allow an external programmer used for firmware upgrade to assert Reset low. During firmware upgrade, R4 must in this case be removed. In noisy surroundings and where RESET is not driven by a push-pull output, it is recommended to add an external pull-up on RESET using a 5k6 resistor (R3). If the pull-up is stronger the external programmer used for firmware upgrade will not be able to assert RESET low. In noisy surroundings and where RXD is not driven by a push-pull output, it is recommended to add an external pull-up on RXD using a 5k6 resistor (R3). (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 8 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Power Supply Noisy external circuitry may under certain scenarios affect the transmitted signal on RC1701HPMBUS4 and precaution should be taken for EU RED conformity. Example of circuits that can generate noise on the RC1701HP-MBUS4 transmitted spectrum may be DC/DC converters and some level converters like RS232 and RS485. To increase spectrum margin it is important to add an EMI filter bead (L1) on the VCC pin of the RC1701HP-MBUS4 module. Alternatively, the RC1701HP-MBUS4 may be powered (RC_VCC) from a separate voltage regulator. This will ensure that potential switching noise is filtered out from the power supply (RC_VCC) to the RC1701HP-MBUS4. Component EMI filter bead (L1), 1500 mA Manufacturer Murata Part number Ordering code BLM18SG331TN1 Programming Interface For future firmware updates and possible custom variants it is recommended to include a 2x5 pins programming connector to the module programming pins. The connector should be a 1.27 mm pitch pin-row (same pitch in both directions), SMD or through-hole version, with the connections shown below. RXD/TXD lines is not in use for firmware upgrade, but is included on spare pins on the connector for debugging purposes. (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 9 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Antenna Connection The antenna should be connected to the RF pin. The RF pin is matched to 50 Ohm. If the antenna connector is placed away from the module at the motherboard, the track between the RF pin and the connector should be a 50 Ohm transmission line. On a two layer board made of FR4 the width of a microstrip transmission line should be 1.8 times the thickness of the board, assuming a dielectric constant of 4.8. The line should be run at the top of the board, and the bottom side should be a ground plane. Example: For a 1.6 mm thick FR4 board, the width of the trace on the top side should be 1.8 x 1.6 mm = 2.88 mm. The simplest antenna to use is the quarter wave whip antenna. A quarter wave whip antenna above a ground plane yields 37 Ohm impedance and a matching circuit for 50 Ohm are usually not required. A PCB antenna can be made as a copper track where the ground plane is removed on the back side. The rest of the PCB board should have a ground plane as large as possible, preferably as large as the antenna itself, to make it act as a counterweight to the antenna. If the track is shorter than a quarter of a wavelength, the antenna should be matched to 50 ohms. Regulatory Compliance Information The use of RF frequencies and maximum allowed RF power is limited by national regulations. The RC17xxHP-RC232 has been designed to comply with the RED directive 2014/53/EU when used in European license free bands. According to RED directives, it is the responsibility of Radiocrafts' customers (i.e. RC17xxHPRC232 end user) to check that the host product (i.e. final product) is compliant with RED essential requirements. The use of a CE marked radio module can avoid re-certification of the final product, provided that the end user respects the recommendations given by Radiocrafts. A Declaration of Conformity is available from Radiocrafts on request. The relevant regulations are subject to change. Radiocrafts AS do not take responsibility for the validity and accuracy of the understanding of the regulations referred above. Radiocrafts only guarantee that this product meets the specifications in this document. Radiocrafts is exempt from any responsibilities related to regulatory compliance. PCB Layout Recommendations The recommended layout pads for the module are shown in the figure below. All dimensions are in thousands of an inch (mil). The circle in upper left corner is an orientation mark only, and should not be a part of the copper pattern. (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 10 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 A PCB with two or more layers and with a solid ground plane in one of the inner- or bottom layer(s) is recommended. All GND-pins of the module shall be connected to this ground plane with vias with shortest possible routing, one via per GND-pin. On the back side of the module there are several vias and pads. These vias and pads shall not be connected, and the area underneath the module should be covered with solder resist. If any routing or vias is required under the module, the routing and vias must be covered with solder resist to prevent short circuiting to the module bottom side vias and pads. It is recommended that vias are tented. Reserved pins should be soldered to the pads but the pads must be left floating. Note that Radiocrafts technical support team is available for schematic and layout review of your design. (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 11 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Mechanical Drawing Mechanical Dimensions The module size is 12.7 x 25.4 x 3.7 mm Carrier Tape and Reel Specification Carrier tape and reel is in accordance with EIA Specification 481. Tape width 44 mm Component Hole pitch pitch 16 mm 4 mm Reel diameter 13" Units per reel Max 1000 Soldering Profile Recommendation JEDEC standard IEC/JEDEC J-STD-020B (page 11 and 12), Pb-Free Assembly is recommended. The standard requires that the heat dissipated in the "surroundings" on the PCB is taken into account. The peak temperature should be adjusted so that it is within the window specified in the standard for the actual motherboard. Aperture for paste stencil is normally areal-reduced by 20-35%, please consult your production facility for best experience aperture reduction. (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 12 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Absolute Maximum Ratings Parameter Min Max Unit Supply voltage, VCC -0.3 3.8 V Supply voltage, -0.3 5 V VCC_PA* Voltage on any pin -0.3 VCC+0.3V V Input RF level 10 dBm Storage temperature -50 150 C Operating temperature -40 85 C *VCC_PA=VCC voltage range for RC1701HP-RC232 Caution ! ESD sensitive device. Precaution should be used when handling the device in order to prevent permanent damage. Under no circumstances the absolute maximum ratings given above should be violated. Stress exceeding one or more of the limiting values may cause permanent damage to the device. Fresh 3.6V Li batteries normally have a higher open circuit voltage than the nominal 3.6V, but can still be used to power the module as long as it is not exceeding the absolute maximum rating (3.8V). When the module operates in IDLE/RX/TX the loaded battery voltage will usually drop below 3.6V, which is inside the operation voltage range. Electrical Specifications T=25C, VCC = 3.3V, VCC_PA=5.0V if nothing else stated. Parameter Min Typ. Operating frequency RC1701HP / RC1701 169.40 169.406250 RC1740HP / RC1740 00 433.077500 RC1760HP / RC1760 433.07 458.512500 RC1780HP / RC1780 75 869.512500 457.50 00 868.01 25 Number of channels RC1701HP / RC1701 10 RC1740HP / RC1740 93 RC1760HP / RC1760 239 RC1780HP / RC1780 84 Input/output impedance 50 Data rate 0.3 1.2 Frequency tolerance Frequency stability aging Transmit power RC1701HP-RC232 RC17x0HP-RC232 RC17xx-RC232 FSK deviation 1.2 kbps 9.6 kbps 19.2 kbps 50 kbps 100 kbps Adjacent channel power: 12.5 kHz channels 25 and 50 kHz channels Spurious emission, TX < 1 GHz > 1 GHz Restricted bands (c)2018 Radiocrafts AS 27 27 15 Max Unit Condition / Note 169.475 444.250 467.600 870.650 MHz Typ. is default channel See page 5 for details 100 Ohm kbit/s +/-1.5 ppm 1 5 ppm/year ppm/ 10 year 27.5 27.5 16 dBm +/- 2.4 +/- 4.8 +/- 7.2 / 2.4 +/- 25 +/- 38.4 Including 10 years of aging. Starting after 10 years Typical values are for default settings kHz <-20 <-37 -36 -30 -54 RC17xxHP-RC232 Datasheet (rev. 1.13) dBm dBm See note 1 Restricted bands: 47 MHz - 74 MHz 87.5 MHz - 118 MHz 174 MHz - 230 MHz 470 MHz - 862 MHz Page 13 of 17 Radiocrafts Embedded Wireless Solutions Parameter Sensitivity: 1.2 kbps 9.6 kbps 19.2 kbps 50 kbps 100 kbps Adjacent channel rejection Alternate channel selectivity Image channel rejection Blocking / Interferer rejection / desensitization +/- 1 MHz +/- 2 MHz +/- 10 MHz Min -117 -113 -109 -106 -101 30 35 60 RC17xxHP-RC232 Typ. Max -118 -114 -110 -107 -102 64 66 66 Unit Condition / Note dBm Measured at 1% BER / 80% PER of 20 byte packets. dB dB dB 82 83 89 dB Saturation Input IP3 Spurious emission, RX Supply voltage, VCC VCC_PA VCC_PA Current consumption, RX/IDLE VCC VCC_PA RC1701HP Current, TX: RF_POWER=5, +27 dBm RF_POWER=4, +24 dBm RF_POWER=3, +20 dBm RF_POWER=2, +17 dBm RF_POWER=1, +14 dBm RC1740HP / RC1760HP Current, TX: RF_POWER=5, +27 dBm RF_POWER=4, +24 dBm RF_POWER=3, +20 dBm RF_POWER=2, +17 dBm RF_POWER=1, +14 dBm RC1780HP Current, TX: RF_POWER=5, +27 dBm RF_POWER=4, +24 dBm RF_POWER=3, +20 dBm RF_POWER=2, +17 dBm RF_POWER=1, +14 dBm RC17xx Current, TX: RF_POWER=5, +15 dBm Current consumption,SLEEP VCC VCC_PA Digital I/O Input logic level, low Input logic level, high Output logic level, low (1A) Output logic level, high(-1A) RESET pin Input logic level, low Input logic level, high UART Baud Rate tolerance +10 -14 2.8 2.5 2.5 3.3 3.3 3.3 31 0.3 VCC+VCC_PA 407 268 173 132 103 -57 dBm dBm dBm 3.6 5.0 3.8 V V V 32 mA uA mA VCC_PA / VCC 318/63 248/42 174/37 141/36 134/35 VCC_PA / VCC 297/72 234/46 154/41 128/39 128/36 VCC_PA+VCC 57 0.60 0.02 70 % 0 TBD Wanted signal 3 dB above sensitivity level, CW interferer. Minimum numbers corresponds to class 2 receiver requirements in EN300220. RC17x0HP RC1701HP Apply over entire supply voltage range Apply over entire VCC supply voltage range when VCC=VCC_PA. mA mA mA 2.0 1.0 uA uA 30 % V Of VCC Of VCC TBD VCC 30 % V Minimum 250 ns pulse width 70 % UART receiver and transmitter Configuration memory write 1000 The guaranteed number cycles of write cycles using the `M' command is limited Note 1: The RC17x0HP module should be characterized as a wideband system for 25 kHz and wider channels under EN300-220-2 V2.4.1. The 25 kHz narrow band ACP requirement will limit the output power to +22 dBm when (c)2018 Radiocrafts AS +/- 2 RC17xxHP-RC232 Datasheet (rev. 1.13) % Page 14 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 characterised as 25 kHz channel under EN300-220-2. For 12.5 kHz narrow band systems the RC17x0HP complies with ACP up to +27 dBm. Packet Error Rate 100 90 80 70 PER @ 2.4 kbps PER 60 50 PER @ 4.8 kbps 40 30 20 PER @ 19.2 kbps 10 -122.0 -121.0 -120.0 -119.0 -118.0 -117.0 -116.0 -115.0 -114.0 -113.0 -112.0 -111.0 -110.0 -109.0 -107.0 -106.0 -105.0 -104.0 -103.0 0 Signal Level (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 15 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Document Revision History Document Revision 1.00 1.10 1.11 1.12 Changes First release Data rate table on page 4 changed according to changes in fw rev 1.02. New description for application circuit - Absolut max voltage vs Max Supply voltage clarification - High power channels at 868 MHz in EU clarification - PER vs Signal Level curves added Updated Mechanical drawing and height information. Please refer to Hardware PCN for revision history. Updated regulatory compliance 1.13 Product Status and Definitions Current Data Sheet Identification Status Product Status Advance Information Planned or under development Preliminary Engineering Samples and First Production No Identification Noted Full Production Obsolete Not in Production X (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Definition This data sheet contains the design specifications for product development. Specifications may change in any manner without notice. This data sheet contains preliminary data, and supplementary data will be published at a later date. Radiocrafts reserves the right to make changes at any time without notice in order to improve design and supply the best possible product. This data sheet contains final specifications. Radiocrafts reserves the right to make changes at any time without notice in order to improve design and supply the best possible product. This data sheet contains specifications on a product that has been discontinued by Radiocrafts. The data sheet is printed for reference information only. Page 16 of 17 Radiocrafts Embedded Wireless Solutions RC17xxHP-RC232 Disclaimer Radiocrafts AS believes the information contained herein is correct and accurate at the time of this printing. However, Radiocrafts AS reserves the right to make changes to this product without notice. Radiocrafts AS does not assume any responsibility for the use of the described product; neither does it convey any license under its patent rights, or the rights of others. The latest updates are available at the Radiocrafts website or by contacting Radiocrafts directly. As far as possible, major changes of product specifications and functionality, will be stated in product specific Errata Notes published at the Radiocrafts website. Customers are encouraged to check regularly for the most recent updates on products and support tools. Trademarks RC232TM is a trademark of Radiocrafts AS. The RC232TM Embedded RF Protocol is used in a range of products from Radiocrafts. The protocol handles host communication, data buffering, error check, addressing and broadcasting. It supports point-to-point, point-to-multipoint and peer-to-peer network topologies. All other trademarks, registered trademarks and product names are the sole property of their respective owners. Life Support Policy This Radiocrafts product is not designed for use in life support appliances, devices, or other systems where malfunction can reasonably be expected to result in significant personal injury to the user, or as a critical component in any life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. Radiocrafts AS customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Radiocrafts AS for any damages resulting from any improper use or sale. Radiocrafts Technical Support Knowledge base: Application notes library: Whitepapers: Technology overview: RF Wireless Expert Training: https://radiocrafts.com/knowledge-base/ https://radiocrafts.com/resources/application-notes/ https://radiocrafts.com/resources/articles-white-papers/ https://radiocrafts.com/technologies/ https://radiocrafts.com/resources/rf-wireless-expert-training/ Contact Radiocrafts Sales requests: https://radiocrafts.com/contact/ (c) 2018, Radiocrafts AS. All rights reserved. (c)2018 Radiocrafts AS RC17xxHP-RC232 Datasheet (rev. 1.13) Page 17 of 17