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| 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 1 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant complete 2.4 ghz rf transceiver module with built-in rfdp8 application protocol part numbers rfd21733, RFD21735, rfd21737, rfd21738, rfd21739 RFD21735 optional configuration for use with external antenna rfd21733 fcc approved 15mm x 15mm (0.600 inch x 0.600 inch) rfd21733 / RFD21735 is a complete, ready-to-use wireless solution with it's built-in user application interface (rfd p8). includes rfid, esn, logic switch transmitter / receiver, 9600, n,8,1 serial uart and many easy-to-use addressable network modes. no development required at all, no rf layout, no code writing, all features are built-in. be up and running with a full wireless solution in minutes. applications ? active rfid ? long range rfid ? remote control ? light controls ? home automation ? alarm security ? keyless entry ? perimeter monitoring ? pc keyboard security ? wireless keyboard ? wireless mouse ? tv remote ? home stereo remote ? asset tracking ? wireless ptt ? remote switches ? remote terminals ? wireless rs232 db9 ? wireless rs485 ? temperature control ? hv/ac ? meter reading ? data acquisition ? inventory control ? keyfob remotes ? industrial controls ? vending machines
13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 2 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant ? runs on a single coin cell for years. ? wifi interference tolerant. ? bluetooth interference tolerant. ? zigbee interference tolerant. ? very low cost. ? no external parts required. ? no rf layout required. ? easy and ready-to-use, hand-held, eval and application boards available. ? ultra small 15mm x 15mm footprint. ? fully contained, truly a finished, ready to use module. ? ce / etsi / fcc certified and approved. ? typical range outdoor; 300 feet (100 me ters), indoor 100 feet (33 meters). ? worldwide 2.4ghz ism band operation. ? user configurable without need for any programming. ? 2ua ultra low power modes. ? only 14ma current consumption at 0dbm rf power output. ? only 17ma current consumption at -94 dbm receive sensitivity. ? 16 bit crc data accuracy verification built-in. ? 32 bit unique factory esn in every m odule (4 billion combination security). ? flexible network modes, including broadcast and individual addressing. ? optional version available for use with external antenna (RFD21735). ? switch on/off, logic, remote-control without the need for an external controller. ? switch nodes individually addressable without the need for an external controller. ? wide supply range +1.9v to +3.6v. ? built-in, high performance internal antenna (rfd21733). ? peer to peer (ad-hoc) networks and configurations. ? point to multi-point networks and configurations. ? multi-point to multi-point networks and configurations. ? selective addressing of any modul e by using factory built-in esn. ? fast-turn-around, minima l latency (20 millisecond). ? patent pending rfdp8 interference tolerant protocol. ? full application protocol runs transparent to the user. ? easy to use, simple to design in. ? stores up to 60 esns (electronic serial numbers) for network modes. ? many to one data modes ideal for multi-point data acquisition. ? unlimited number of module nodes can communicate to each other. rfd21733 / RFD21735 features rf digital's rfdp8 application firmware loaded into the rfd21733 / RFD21735 modules can be customized to fit application specific user requirements. rf digital can design and manufacture fully custom modules to fit specific customer requirements. if you do not find what you're looking for, feel free to contact rf digital with your requirements. custom modules rfdp8 application protocol ? mode selector chart see below fo r ready-to-use eval boards. eval kits 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 3 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant rfd21733 / RFD21735 application configuration examples rfd21733 / RFD21735 system configuration examples 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 4 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant rfd21733 / RFD21735 application configuration examples 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 5 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant rfd21733 / RFD21735 application configuration examples 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 6 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant differences between eval boards rfd21737 rfd21738 rfd21739 the rfd21733 rf module with built-in chip antenna is soldered onto the rfd21737 eval board. the antenna is self contained within the module. this eval board is self-contained and does not require an external antenna. the RFD21735 rf module is soldered onto the rfd21738 eval board. there is a 1.2 inch wire antenna soldered onto the rfd21738 which connects to the RFD21735 external antenna pin through rf strip-line within the pcb layers. this eval board is self-contained and does not require an external antenna. the RFD21735 rf module is soldered onto the rfd21738 eval board. there is a female sma connector soldered onto the rfd21738 which allows the user to connect to an external 2.4 ghz antenna of their choice. the RFD21735 external antenna pin is routed to the sma connector through strip-line within the pcb layers. this eval board requires a user supplied 2.4 ghz antenna with a male sma connector. antenna not included 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 7 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant all three eval boards can be powered from their on- board cr2032 3v battery or through the 12 pin 0.100 inch (2.54mm) pitch header, which can plug into directly into standard solder less breadboards or connect to mating a 0.100 inch (2.54mm) mating socket. the eval boards can work as stand-alone or can be wired to your application. eval board top and bottom labeled views 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 8 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant the 8 different modes of the rfdp8 application protocol are selected using the 3-position dip-switch s5 shown in the examples below. the 3 inputs have resistor pull-downs to ground, so when the switch is in its off (open) position, there is a low (0) on the input. when the switch is in its on (closed) position, it connects the input to +v, which produces a high (1). the proper way to read binary is msb on the left and lsb on the right. switch manufacturers label the switches from left to right and furthermore they commonly start with 1 rather then 0. so careful attention needs to be given to identify the switch positions. the binary is read from msb to lsb, ra ther then lsb to msb as shown in the examples below. to remove all doubt, only follow the examples shown below. rfdp8 mode selector switch mode 0 active rfid transmitter off off off mode 1 3-input switch logic transmitter on off off mode 2 serial uart transceiver 9600-8n1 on off off mode 3 serial uart transceiver 9600-8n1 network on on off mode 4 3-output switch logic receiver 500ms hang time on off off mode 5 3-output switch logic receiver 500ms hang time network on on off mode 6 3-output switch logic receiver 20ms hang time on on off mode 7 3-output switch logic receiver 20ms hang time network on on on 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 9 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant eval board top and bottom view pinout eval board power suppl y and lo g ic levels - important there is an internal 3.3 volt (ldo) on the eval boards. at the (pin 2) +v input pin, you can supply 2.1vdc minimum and a maximum of 3.6vdc . when your supplied voltage is between 3.4v and 3.6v the internal regulator is in regulation and the internal s upply to all parts will be 3.3v, and all signals on pins 9-12 will be at 3.3v logic. when 2.1v to 3.4v is s upplied the internal 3.3v regulator is of regulation and tracks the input voltage (minus 100mv overhead). if y ou supply 2.5v your logic will be at 2.4v, and if you supply 2.1v your logic will be at 2.0v. the in ternal 3.3v regulator accept up to a 5v supply input, but at 5v supply, your logic levels on pins 9-12 will be at 3.3v, so use caution . so you will need to use 3.3v to 5v logic level shifters to run properly at 5v or you will cause damage to the module. when using a 5v supply, a very quick 5v level shifter method (not to be used for production) just for testing, which works in some cases would be to use a 22k resistor in series between the eval boards 3.3v logic and your 5v logic. there is a 47k pull down resistor internal to the board on pin 9-12 and this is just enough to switch the logic levels in both directions for a quick and dirty level shifter. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 10 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant fcc compliance information the rfd21733 is fcc modular approved, therefore for use of the rfd21733 module in your product you do not need any further fcc testing. detail instructions and fcc notice shown later in this data sheet. any modification made to the rfd21733 will void the fcc approval. the rfd21733 has an integrated on-board chip antenna. you simply include the rfd21733 in your product and fo llow the fcc notices and information below and place the appropriate label on your product to indicate that it includes an fcc approved module and no further testing would be required for the module. the RFD21735 is not fcc approved. however it is exac tly the same as the rfd21733 except it does not have an internal antenna and is built to allow a user to apply their own antenna of choice. any type of 2.4 ghz antenna may be used. once you include the RFD21735 into y our product and your chosen antenna is connected, then your whole product is tested by an approved fcc complianc e laboratory and you receive your own grant for your whole product which includes the RFD21735. this pr ocedure is somewhat costly and time consuming and therefore the rfd21733 is the primary choice by many engineers. the RFD21735 is typically used if you must have an external antenna. the rfdant rfd21743 has been modular fcc tested and is now in the documentation phase and approval is pending, it is expected to be complete by aug-sep 2010. the rfdant rfd21743 is a great alternative to needing to get your own fcc approval with the rf d21735 combined with your own antenna. the rfd21743 has an excellent antenna pattern, provides about 4 ti mes more range then a rfd21733 and does not require mounting to your pcb since it has its own antenna enclosure , more details about it below in this data sheet. it should be considered before starting your design with an RFD21735 and your own external antenna, since it accomplishes the same task without t he need for further compliance approvals. ce, etsi compliance information the rfd21733, RFD21735 and rfd21743 are ce (etsi) tested. see declaration of conformity later in this document. rfdp8 firmware rf digital offers firmware for the rfd21733 and rfd 21735 modules meets many common user requirements. the firmware and a unique identifier are pre-programmed and tested at the factory. the programmed module is therefore immediately ready for use upon delivery. the rfdp8 firmware use the 3 mode select inputs to se lect the operating mode. these inputs are sampled when the module powers-on. some of the operating modes have additional options wh ich are described in the section for that mode. the rfdp8 firmware cannot be modified by the user. fo r applications that require alternative functionality, contact rf digital for information about custom firmware to fit your specific requirements. interference immunity algorithm rf digital's rfdp8 proprietary patent-pending frequency agilit y protocol operates in the internationally accepted 2.4 ghz band. the rfdp8's leading-edge advanced algorithm is not burdened by a heavy-weight stack as is bluetooth, zigbee, wlan and other protocols, which are well suited for cross-manufacturer interoperability. the rfdp8 protocol is highly robust and effective where ther e is a need to penetrate through a high saturation of rf 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 11 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant noise which is common in nearly all environments today. it is especially effective and can easily coexist in heavy wifi environments, which very few technologies can do successfully without the need of excessive processing power. the protocol strategically changes channels frequent ly to deliver its payload to the destination device reliably, yet not too excessively as to demand too much in ternal processing power which allows it to run with a very low current consumption profile and fast start up time s allowing substantial flexibility with implementation. the rfdp8 protocol reduces the amount of on-air tr affic and unnecessary chatter due to its unique and highly efficient design, which does not require bilateral regi stration and association as do many other technologies today. the rfdp8 does not require ack-nacks to comple te a packet delivery, it's unique technique of packet delivery, recovery and correction allows it to work as a one-way link, hence drastically simplifying users' applications which always results in more a robust wi reless system. the rfdp8 protocol combined with rf digital's leading-edge rf module hardware delivers a highly robust method of delivering user data from point to point, point to multi-point or multi-poi nt to multi-point, transmitter-receiver, tr ansceiver, serial or switch on/off data modes. the protocol is designed to wo rk seamlessly with rf digital's hardware modules, the combination results in ultra long range at ultra low currents without concer n for compliance approvals since modules such as the rfd21733 come with fcc approval for usa and have passed ce - etsi emission testing for european requirements. the rfdp8 protocol adds several db of range gain passively through it's advanced data recovery technique which pulls valid data out of a noisy environm ent adding effective gain which results in more range, delivering the net result, which is a very robust wireless syst em. all of this is built into the overhead of the rfdp8 protocol and rf digital modules, so it's all done behind t he scenes, allowing the user to focus on building their application and simply putting data into the radio device as a wireless pipe and easily receiving it on the other end. electronic serial number every rf digital module has its own 32-bit unique identifie r (over 4 billion unique values), known as the electronic serial number, or esn. this value is assi gned at the factory and cannot be changed by the user. the esn is included in every packet that is transmitted, as part of the prot ocol overhead and is transparent to the user. the user does not ordinarily need to know what the esn is. however, in certai n cases it is helpful to know the serial number, and so a mechanism has been provided to read out the esn. this method is documented in the uart section below. network mode the uart and the receiver with logic output can be configured to accept data only from transmitters with which it has been associated, i.e. in its network. when in network mode, a module must ?learn? the esn of any module which it wishes to ?hear." the learn signal (listed in the uart and receiver sections below ) is usually an input, pulled to gnd through an external resistor. when learn is driven high for at least 20ms and then allowed to return to gnd, the module enters learning mode. while in learning mode, the learn signal is changed to an output and driven high. during this time, the module will learn the esn of the first module that sends any dat a; the data will be discarded, the esn of the transmitting module will be learned by the receiving module. the rece iving module indicates that it has learned the esn by toggling the learn output on and off quickly three times. after learning the transmitting modules esn, or after 10 seconds pass, the module will exit learning mode by driving learn low and then changing it back to an input. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 12 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant the learn / status pin is bidirectional, it is an input when in the learn st ate and an output when in the status state, so you must drive it using a series resistor, we recommend you not use any value smaller 1k ohm to limit the amount of load current. there is an internal 47k pull down resistor, so if you use a value of 1k series resistor that will easily be enough to drive it hi gh against the internal 47k pull down resistor. modules can learn up to 60 unique esn?s . esn?s cannot be deleted individually . the list of learned esn?s can be completely cleared by holding the learn signal high for at least 10 seconds and then releasing it. the module will erase its esn list, and then drive the learn signal in a fast alternating high/low pattern for a few seconds to indicate that the esn list is now empty. once a module has learned the esn of another module, it will accept any and all data from that module only and not any other modules. up to 60 unique transmitters can be taught to one receiver. if a module is configured to any of the 3 network modes and it has not learned any transmitters esn, then it will not receive and output any data, until it learns at least one transmitter. this network feature can be used for peer-to-peer networks, point to multi-point networks, multi-point to multi- point networks. the association can be between two units for simple functions like opening a garage door or with many units to form complex networks with multiple nodes. modes mode 0 ? active rfid transmitter pin # pin label direction function 13 +v input +v power 10 gnd input ground 16 mode select 0 input tie to gnd 17 mode select 1 input tie to gnd 3 mode select 2 input tie to gnd 4 tx led output toggles high during transmission (1 blink every 2 seconds) 5 in1 input active high switch input #1 (optional) if not used, pull to gnd. 6 in2 input active high switch input #2 (optional) if not used, pull to gnd. 7 in3 input active high switch input #3 (optional) if not used, pull to gnd. the active rfid transmitter transmits a packet with its esn every 2 seconds when the three inputs are all at a low logic level. if any of the three inputs go high, the module transmits the state of all three inputs every 15 ms, until all three inputs are low. the logic inputs should be tied low if they are not used in the end application. the module is active during transmit for 15ms, but rema ins in an ultra-low power mode for the rest of the 2 second interval. the average power over time is m easured in microamps, such that a cr2032 battery should provide about 60 days of continuous use. during the 15ms transmission times the current consumpt ion is about 15ma and during the roughly 2 seconds the current is about 2ua. if you determine that you need a different period of trans mission other then the 2 seconds, a shorter period or a longer period, then simply use mode 1 shown below and use your own controller to pulse one of the 3 inputs at the desired period and it will perform exactly the same function as the rfid transmitter mode 0. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 13 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant if longer periods of use are required, a larger battery can be used to allow it to run up to years of time without replacing the battery, or contact rf digital to i nquire about a custom time setting which will reduce the transmission interval thus reduci ng the average power consumption. the mode 0 is effectively mode 1, except, in addition to mode 1 features, the module will internally cause input 1 to transmit on its own every 2 seconds. mode 1 ? input logic transmitter pin # pin label direction function 13 +v input +v power 10 gnd input ground 16 mode select 0 input tie to +v 17 mode select 1 input tie to gnd 3 mode select 2 input tie to gnd 4 tx led output toggles high during tr ansmission (1 blink every 15 milliseconds) 5 in1 input active high switch input #1 (optional) if not used, pull to gnd. 6 in2 input active high switch input #2 (optional) if not used, pull to gnd. 7 in3 input active high switch input #3 (optional) if not used, pull to gnd. when all three switch inputs are low, the module does not transmit, but remains in an ultra-low-power state consuming only 2ua. when any of the three switch inputs go hi gh, the module transmits the state of a ll three inputs. as long as any of the three inputs remain high, the module continues to tr ansmit the state of all three inputs every 15ms, while transmitting it will draw about 15ma. you can also tie any of the three inputs to +v and then connect a switch between +v of the module and your supply, then once you apply +v to the module it will instantly transmit as fast as possibl e, this is the method can be used to consume zero current when not in use such as in the case of garage door openers or keyfobs and can be used for many years without c onsuming any current at all. modes 2 ? 9600 baud uart pin # pin label direction function 13 +v input +v power 10 gnd input ground 16 mode select 0 input tie to gnd 17 mode select 1 input tie to +v 3 mode select 2 input tie to gnd 4 not used output do not connect, not used. 5 logic io i/o bidirectional switch logic i/o, if not used, pull to gnd. 6 rxd output rx data out, ua rt output of received data. 7 txd input tx data in, uart input of data to transmit. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 14 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant modes 3 ? 9600 baud uart (network) pin # pin label direction function 13 +v input +v power 10 gnd input ground 16 mode select 0 input tie to +v 17 mode select 1 input tie to +v 3 mode select 2 input tie to gnd 4 learn / status i/o pulse high to enter learn mode and led learn status output. 5 logic io i/o bidirectional switch logic i/o, if not used, pull to gnd. 6 rxd output rx data out, ua rt output of received data. 7 txd input tx data in, uart input of data to transmit. 9600 baud half-duplex uart, suitable for connection to a mi crocontroller, or a level translator (such as a max202) to an rs-232 port. rf transmission takes priority over rf reception, so that a module will not receive anything over the air if it is given a full-speed stream of serial data on tx_in. the uart is configured for 9600 baud, 8 data bits, 1 stop bit, and no parity. because the module does not perform any parity checking on the data stream, it is possi ble to use 7 data bits with even or odd parity instead of 8 data bits with no parity. when in uart mode, the module remains in an acti ve state with the radio enabled in receive mode. if you are only using the module as a receiver, you must te rminate the txd line with a pull up resistor to +v so you do not leave a floating input which may cause unint entional transmissions by the module detecting anything other then a solid logic level on the txd pin. note you can also pull it to ground to terminate it if you require, but most applications will want to terminate by a pull up resistor if the pin is unused. there is a general purpose io line in mode 2 and mode 3 which is pin 5 on the module and the label in these modes are called logic io. this is a powerful featur e which allows you to not only send serial data back and forth using the txd and rxd, but in addi tion you can apply a high logic level to the logic io pin and it will start transmitting without the need for sending serial data into t he txd pin. once it is transmitting, any mode 2 or mode 3 receiver's logic io pin will go high for the same dur ation of time. this allows you to send switch data between two transceivers as well as serial data. in some applications this is very us eful since you can use this feature to have one master device turn on a slave dev ice and wait for the slave device to be ready to communicate using the uart and then begin sending data to it rather then keeping it awake all the time. the logic io pin (pin 5) on the rfd21733 must be terminated when in mode 2 or 3, (pulled to ground with a resistor) or it will float and cause the transmitter sporadi cally. all inputs must be terminated properly and this one is no exception. if you do not plan on using it, tied it to ground using any resistor between 10k to 47k. note this is a bi-directional pin so do not directly connect to an out put or to ground, you must use a pull down resistor. also, when in use with a microcontroller pin you should c onsider using a series 1k resistor as well between the logic io pin and your controller pin since that will pr event any possible conflicts that might happen if you chose to drive the pin when it was an output by mist ake, which can be a very common occurance. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 15 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant end-to-end latency in order to use the radio efficiently, the rfdp8 firmware buffers data received from the uart into packets which are transmitted over the radio. the firmware transmits a packet when it has buffered 12 bytes of data, or 15ms after receiving a byte of data. on the receiving end, data will be transmitted over the uart at line speed, with no pauses between the bytes (other than t he rs-232 start and stop bits). the buffering allows for the rfdp8 to support a full 9600 baud data rate. the buffering and latency may cause problems with certain mi crocontrollers that can not tolerate serial data into their uart in a constant stream at 9600-8n1. one possible solution is to add a 16ms delay on the transmitting side which will cause each byte to be sent in its own packet by the module and theref ore on the receiving end the bytes will be outputted at a pace of one byte every 16ms which will help your controller of choice handle the fast uart data. as an example, consider a scenario where one system is sending a byte of data every 8ms. when module 1 receives the 1 st byte on its uart, the 15ms timer begins. the 2 nd byte arrives before 15ms elapses, and so the first two bytes are sent in a single packet over the air to module 2. module 2 will transmit the bytes on its uart with no delay between them. module 1 receives the third by te on its uart, and re-starts the 15ms timer. as with the 2 nd byte, the 4 th byte arrives before 15ms elapses, and so the 3 rd and 4 th bytes are also sent in a single packet over the air, as illustrated in the following timing diagram. bi-directional io signal operation uart mode includes an additional bi-directional general-purpos e io line. the io signal is generally an input, and should be pulled to gnd with an appropriately sized resistor (for example 10k). if the io signal is driven high, the module will transmit this information, and any uart which receives the data will turn its io signal into an output and drive it high. this will continue until 20ms pass without receiving any new data, or until the module receives a packet which indicates that the io signal should be driv en low and turned back to an input. the state of the io signal does not require any extra data in the radio stream, and so is ?free? in the packet overhead. when the module is driving its io signal high, it will peri odically change the pin to an input and check to see if it remains high, before changing it back to an output. this causes a periodic dip in the signal, 1ms every 12-16ms, and so any circuitry which relies on a steady-state output from the io signal should include conditioning (for example a retriggerable one-shot with a hold ti me of 2ms) to avoid adverse effects. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 16 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant esn read-back in certain applications, it is helpful to know the esn of a module. there is a provision in both uart modes to read back the esn when the module comes out of reset. esn read-back is not available in any of the other modes. pin 14 on the rfd21733 / RFD21735 is marked as do not connect, this pin normally is not connected for all applications except for reading back the esn. so that is why it is mentioned here and not anywhere else. the reset signal does not have to be used, instead of using re set you can use power the module off and then back on. the reset is a cleaner way of doing it. if you are using the rfd21737, rfd21738, rfd21739 eval boards, the reset signal is available on pin 5 of the 12 pin connector. internal to the rfd21733 / RFD21735 there is a 3.3k pull up resistor on the reset signal, so when you are not using it, you can just leave it open. to activate esn read-back: 1. place the module in a reset stat e by holding the /reset signal low. 2. hold the learn signal high. 3. release the /reset signal. 4. wait 250ms. if the learn signal goes low at any time during this 250ms interval, the module immediately exits esn read-back mode. 5. release the learn signal. 6. send the string ?read esn? (all capitals, one s pace between the two words) at 9600-8n1 into the module on the txd input signal. if this string is not received within 1 second, the module exits esn read- back mode. the module will respond with the esn and a firmware i dentifier on the rxd output signal at 9600-8n1, and then exit esn read-back mode. an example of the output is: 314ce686:rfdp8 v1.2 11/18/08 08:45:16$ the esn is 8 characters, representi ng a 32-bit number in hexadecimal forma t. a colon separates the esn from the firmware id. the firmware id is 32 bytes long. t he output is terminated with a carriage return/line feed pair. when the module exits esn read-back mode, or if the l earn signal is not high when the module exists reset, the module will enter regular operation in mode 2 or 3, according to the mode select signals. modes 4 ? receiver with logic output (500ms hang-time) pin # pin label direction function 13 +v input +v power 10 gnd input ground 16 mode select 0 input tie to gnd 17 mode select 1 input tie to gnd 3 mode select 2 input tie to +v 4 not used output leave open, not used. 5 out1 output active high switch output #1, 500 millisecond hang-time. 6 out2 output active high switch output #2, 500 millisecond hang-time. 7 out3 output active high switch output #3, 500 millisecond hang-time. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 17 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant modes 5 ? receiver with logic output (network) (500ms hang-time) pin # pin label direction function 13 +v input +v power 10 gnd input ground 16 mode select 0 input tie to +v 17 mode select 1 input tie to gnd 3 mode select 2 input tie to +v 4 learn / status i/o pulse high to enter learn mode and led learn status output. 5 out1 output active high switch output #1, 500 millisecond hang-time. 6 out2 output active high switch output #2, 500 millisecond hang-time. 7 out3 output active high switch output #3, 500 millisecond hang-time. modes 6 ? receiver with logic output (20ms hang-time) pin # pin label direction function 13 +v input +v power 10 gnd input ground 16 mode select 0 input tie to gnd 17 mode select 1 input tie to +v 3 mode select 2 input tie to +v 4 not used output leave open, not used. 5 out1 output active high switch output #1, 20 millisecond hang-time. 6 out2 output active high switch output #2, 20 millisecond hang-time. 7 out3 output active high switch output #3, 20 millisecond hang-time. modes 7 ? receiver with logic output (network) (20ms hang-time) pin # pin label direction function 13 +v input +v power 10 gnd input ground 16 mode select 0 input tie to +v 17 mode select 1 input tie to +v 3 mode select 2 input tie to +v 4 learn / status i/o pulse high to enter learn mode and led learn status output. 5 out1 output active high switch output #1, 20 millisecond hang-time. 6 out2 output active high switch output #2, 20 millisecond hang-time. 7 out3 output active high switch output #3, 20 millisecond hang-time. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 18 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant in modes 4 through 7, the module is always in receiving mode. the receiver drives its outputs to match the values receiv ed in a packet from a transmitter. this allows up to 8 possible (2 3 ) combinations on the receiver?s outputs. since a transmitter does not send any data when all of its inputs are low, there must be a mechanism for turning off the receiver?s outputs in the absence of data. when mode select 1 is pulled to gnd, the receiver will maintain its output state for 500ms or until it re ceives new data, whichever comes firs t. the 500ms is referred to as the ?hang time,? or the time that the outputs will ?hang? in t he absence of new data. if mode select 1 is pulled to +v, the hang time is 20ms. hang time is a trade-off between latenc y and resiliency to packet loss. with all rf systems sometimes a packet will be lost, especially as the distanc e between the transmitter and the receiver grows. if an output is connected to a relay driver, packet loss will result in chattering on the relay, which will not have good results. the 500ms hang time is perfect for applications like a keyless entry system or a garage door opener. for faster switching to the ?all off? state, the 20ms hang time is preferred. sinc e a transmitter sends new data every 15ms, the time delay to turn off all outputs is onl y 5ms more than to update the outputs to a different state where at least one of them is still driven high. the following timing diagrams show the operation of a logi c transmitter and a logic receiver with the different hang time options. in the first diagram, the logic transmitter?s inputs are a ll asserted, and then sequentially de-asserted. there is a small delay between the transmitter input going high and the corresponding output on t he receiver going high, due to the time required to transmit over the air. note that when the last input on the transmitter is de- asserted, there is a 500ms del ay before the receiver de- asserts its last output. the second diagram shows the same operation at the trans mitter, but with the receiver configured with a 20ms hang time. note that shortly after the last input is de-asserted, t he receiver updates its output st ate to turn off all outputs. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 19 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant communication between uart and switch logic receiver/transmitter the logic receiver and transmitter modes are able to comm unicate with a module operating in one of the uart modes, which opens up a wide range of possible applications involving pc?s or embedded systems with serial communications capability. logic transmitter to uart a logic transmitter (whether rfid or not) sends the state of its inputs as a single byte of data, followed by its esn as four bytes. a uart can receive this packet and output it as a binary stream to a pc serial port or an embedded microcontroller. the format of the data is: byte bit 7 bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 1 input 3 input 2 input 1/ rfid rfid 2 esn byte 1 3 esn byte 2 4 esn byte 3 5 esn byte 4 in the first byte, bits 6 through 4 carry the state of the logic inputs, with a ?1? indi cating the logic input on the transmitter is high, and a ?0? indicating it is low. an rfid transmitter will set both bits 0 and 4 to indicate that it is a periodic transmission from an rfid transmitter, and is set to ?1? if this is the case. for example, if an rfid transmitter with esn 314ce686 sent a packet on its 2-second interval, a uart would receive the bytes 11 31 4c e6 86 in binary format. if input #1 on that same rfid transmitter were pulled high, the uart would receive the bytes 10 31 4c e6 86 in binary format; since bit 0 is clear, the receiver can tell that this was not a periodic transmission. most esn?s will contain at least one unprintable character, and so this data will not be suitable for displaying directly in a terminal package (such as hypertermi nal), but a pc-based program or an embedded system (such as the basic stamp) can collect the data and display it in a more friendly fashion. the esn which the uart receives is the same one that is in the packet header. if the uart is in network mode, and has not learned the esn, it will never receive t he packet, and there will be no output on the serial port. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 20 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant uart to logic receiver a uart can also send data to a logic receiver, whic h will decode the data and assert its outputs as though it received a packet from a logic transmitter. the data format is very similar to the one described in the previous section. the differences matter only w hen the receiver is in network mode. the uart must follow a packet with at least 15ms of no dat a so that all bytes as described below are sent as a single packet. note that a uart can send a single zero byte ? all bits clear ? to force a receiver to turn off its outputs immediately, regardless of hang time. format 1: byte bit 7 bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 1 output 3 output 2 output 1 when the receiver is not in network mode, the receiver will accept any packet it receives, and so this is the preferred format. a receiver in network mode will use the uart?s esn from the packet header to determine if it should accept the packet. this allows one uart to send the same data to multiple receivers, provi ded that each receiver has learned the uart?s esn. format 2: byte bit 7 bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 1 output 3 output 2 output 1 2 esn byte 1 3 esn byte 2 4 esn byte 3 5 esn byte 4 to allow individual addressing of receivers in network m ode, the uart can send a particular receiver?s esn after the byte for the logic state. in this case, the receiv er will only accept the packet if the esn in the data portion matches the receiver?s own esn. if the receiver is actively learning esn?s, it will learn only the esn from the packet header; the esn in the data portion will not be learned. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 21 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant electrical characteristics operating conditions symbol parameter minimum typical maximum vdd supply voltage 1.9v 3.0v 3.6v operating temperature -40c +85c power consumption conditions: vdd = 3.0v, t a = +25c logic transmitter or active rfid transmitter parameter minimum typical maximum ultra-low power mode - switch logic transmitter / rfid 2ua uart or switch logic transmitter / receiver parameter minimum typical maximum listening - receiving 17ma transmitting 14ma 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 22 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant overall dimensions ? top view overall dimensions ? side view 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 23 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant pcb layout 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 24 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant fcc notice relating to model number r24 (rfd stock code: rfd21733) the unit should have a permanently attached label in a conspicuous location with the following statement: notes: 1. the fcc does not specify the size of the l abel or the lettering thereon. the only requirement is that the text be legible. 2. if the entire label can not be placed on the unit due to space constraint, only fcc id may be displayed on the unit. in such cases, the co mpliance statement will have to be included in the "user?s manual". note: device must be smaller than a man?s palm. ** if the unit also interfaces with phone line, it r equires additional information on the label - refer to part 68 information ** fcc id: uyi24 this device complies with part 15 of the fcc rules. operation is subject to the following two conditions: (1) this device may not cause harmful interference and (2) this device must accept any interference received, including interference that may cause undesired operation. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 25 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant sample fcc statement to be included in user's manual instruction to the user (if device does not contain a digital device) the user is cautioned that changes or modifi cations not expressly approved by the party responsible for compliance could void the user?s authority to operate this equipment. instruction to the user (if device contains a digital device) this equipment has been tested and found to comply with the limits for a class b digital device, pursuant to part 15 of the fcc rules. t hese limits are designed to provide reasonable protection against harmful interference in a resi dential installation. this equipment generates, uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions, may cause harmful interferenc e to radio communications. however, there is no guarantee that interference will not occur in a par ticular installation. if this equipment does cause harmful interference to radio or televisi on reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: * reorient or relocate the receiving antenna. * increase the separation betw een the equipment and receiver. * connect the equipment into an outlet on a circuit di fferent from that to which the receiver is connected. * consult the dealer or an experienc ed radio/tv technician for help. in order to maintain compliance with fcc regul ations, shielded cables must be used with this equipment. operation with non-approv ed equipment or unshielded cables is likely to result in interference to radio and tv reception. the us er is cautioned that changes and modifications made to the equipment without the approval of manufacturer could void the user's authority to operate this equipment. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 26 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant rohs declaration of conformity rf digital declares that part numbers ? rfd21731 ? rfd21732 ? rfd21733 ? rfd21734 ? RFD21735 ? rfd21736 ? rfd21737 ? rfd21738 ? rfd21739 ? rfd21740 ? rfd21741 ? rfd21743 are manufactured with rohs materials. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 27 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant declaration of conformity june 29, 2010 rf digital declares that part numbers ? rfd21731 ? rfd21732 ? rfd21733 ? rfd21734 ? RFD21735 ? rfd21741 ? rfd21743 comply with etsi en 300 440-2 power requirements as called out in the r&tte v1.2.1 directive technical documents for the above mentioned part numbers are held at rf digital corporation 13715 alton pkwy. irvine, ca 92618 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 28 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant rfdant - rfd21743 the rfd21743 rfdant is a full 2.4 ghz radio transceiver including the rfdp8 protocol, completely built into an antenna form factor allowing the entire radio transceiver to be outside your product, were only the power and signal cable will extend into your product enclosure to then be connected to your pcb with a simple 1.5mm smt or through hole connector. it has already passed fcc testing and in the docum entation phase and therefore fcc modular approval is pending and should be available aug-sep 2010 time frame. the rfd21743 rfdant is currently available, as well as it's eval board which is the rfd21740. the rfd21743 is functionally identical to the rfd21733 module and the rfd21740 works just like the rfd21737 eval board except it has an 11 pin 1.5mm connector on it so the rfdant rfd21743 can plug into it for use with any other rfdp8 product from rf digital. the rfd21743 has been range tested at 2,000 feet wh ich is 4x the range of the rfd21733 which is at 500 feet. no special pcb layout is needed for the rf d21743, simply just put a connector on your pcb and you are done . all this substantial range increase is achieved all without any increase in current or battery consumption. the rfdant is rf digital's worldwide patent pending radio inside antenna product, which is a complete radio transceiver and antenna mounted inside of an antenna enclosure, suitable for mounting to virtually any type of end-product. the entire radio transceiver is mounted inside the antenna enclosure, so there is no loss of rf power to the antenna from the module, and results in the most effective power transfer ratio possible, providing lowest power consumption possible to achieve a specific range. the radio being inside of the antenna and outside the enclosure allows for more room inside the enclosure for the designers application electronics. minimal interference with the internal electronics of the enclosure results in better range and performance of the wireless system. the actual effective antenna is pushed away from th e enclosure, which reduces the effect of holding the enclosure, therefore improving the performance, range and predictability of the users wireless system. logic level signals are used through an unshielded cable (not coax) to the rfdant, which can be run for long distances without any loss to the performance of the wireless transceiver. by the antenna and module being fully outside allows fo r easy retrofit of nearly any product due to it not consuming any internal space inside the enclosure, drill a hole and screw it in, add a nut inside to secure it and wire the logic level signals to your electronics. mount on metal or plastic enclosures with no worry about ground effects. stable antenna pattern providing substantial, well- distributed, passive-gain for transmit and receive, results longer repeatable range from your wireless system. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 29 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant rfdant - rfd21743 - fcc approval pending the pin out on the left is of the rfd21733 / RFD21735 module which is referenced through out this data sheet. to wire the rfdant 11 pin connector simply match up the pin labels shown in both drawings above. treat the rfdant rfd21743 exactly as if it were an rfd21733 module and wire it the same way, except follow the pin outs shown above. the black wire on the rfd21743 connector is pin 1. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 30 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant mating connectors for the 11 pin rfdant connector, these part numbers can be found at digikey in the usa http://www.digikey.com or at any other distributor. they are standard c onnectors and you may use other manufacturers as well. 1) top entry, through hole type, 11 pos a. digikey p/n 455-1666-nd b. manufacturer p/n: b11b--zr 2) side entry, through hole type, 11 pos a. digikey p/n 455-1678-nd b. manufacturer p/n: s11b--zr 3) top entry, smt type, 11 pos a. digikey p/n 455-1690-2-nd b. manufacturer p/n: b11b?zr-sm4-tf 4) side entry, smt type, 11 pos a. digikey p/n 455-1701-2-nd b. manufacturer p/n: s11b?zr-sm4-tf rfdant - rfd21743 mating connectors 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 31 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant -70 -60 -50 -40 -30 -20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 horizontal antenna pattern -70 -60 -50 -40 -30 -20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 vertical antenna pattern rfdant rfd21743 high performance antenna patterns are easily achieved without any rf considerations or knowledge because the 11 pin cable and connector only carries power and data signals so no rf cable loss at all. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 32 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant rfd21740 eval board with rfdant 11 pin connector. rfd21740 eval board (for rfd21743 rfdant) rfd21740 eval board with rfdant rfd21743 plugged into the eval board connector. this is a polarized connector and there is only one way to plug in the connector. the black wire is ground and is located close to the slide switch as shown below. the rfd21740 functions exactly like the rfd21737. 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 33 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant the rfd21733 and RFD21735 are not washable. use no-clean flux, leaded or lead-free. if you attempt to wash the modules, water will enter beneath (inside) the rf shield and get trapped, which may cause device failure or damage once powered on. there is no way to make sure all water has been removed before powering the module so do not wash the modules. washing do not pot or conformal coat the rfd21733 or RFD21735. if you plan on encapsulating the rfd21733 or RFD21735 in a potting compound or conformal coating, you must assure that the compound in liquid or solid form does not enter under the shield where there are sensitive rf components. some of the capaciti ve values are as low as half a picofarad and sensitive to contacting materials such as potting compounds. there are potting compounds and conformal coatings which have very good dielectric constants and are suitable for 2.4 ghz potting applications, however, when you apply any of these, they were accounted for in the circuit design and might reduce performance of the device or all together cause it not to function. applying any compound, conformal coating or potting directly to the module voids any and all warranty and support service. if your application requires 100% sealing of the module, there is a way to do this very successfully without impacting the module performance. simp ly place the module on your pcb. place a plastic cover over the module (like a hat), make the cover la rge enough to cover the whole module. apply glue around the bottom perimeter of the cover where it sits on the pcb. this allows the module to function in free airspace while there is a complete seal around it. this information is only for reference and you should do your own testing with your application to find the best suitable fit for your own design. potting, encapsulation and conformal coating use standard lead-free or leaded reflow profile for the rfd21733 and RFD21735. your cm (contract manufacturer) should profile this module along with your pcb and all other parts on it through their reflow oven to properly set a profile suitable for all the parts on the board combined. if you are building a double sided placement board, place this device last so it will not be attempted to be reflowed upside-down. as with building any rf devices, you should always build a small quantity through your production process, test and verify, then increase your quantities to make sure the process is not harmful to the performance of your rf system. this is true with any rf system, including use of these modules. reflow profile 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 34 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant rfd21733 / RFD21735 tray packaging 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 35 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant rfd21733 / RFD21735 tray packaging 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com 36 ? copyright, rf digital corp. 8/26/2010 11:56 pm patents pending rohs rfd21733 fcc approved rfdp8 rfdant rf module rfd21743 rfd21733 rfd21740 RFD21735 rfd21737 rfd21738 rfd21739 etsi ? ce compliant important notice rf digital reserves the right to make corrections, modifications, and/or improvements to the product and/or its specifications at any time without notice. rf digital assumes no liability for the user?s product and/or applications. rf digital products are not authorized for use in safet y-critical applications, including but not limited to life-support applications. rf digital assumes no liability for parts or their app lication beyond replacement or refunding the original purchase price. all trademarks and trade names belong to their respective owners. end of document. rfd21733 / RFD21735 tray packaging 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 1 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant surface mounted rf module layout examples for part numbers rfd21731, rfd21732, rfd21733, rfd21734, RFD21735 go to http://www.rfdigital.com for complete data sheet. for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! for use with external antenna RFD21735 / rfd21734 21733 fcc approved - built-in antenna rfd21731 / rfd21732 / rfd21733 21731 / 21732 / 21733 / 21734 / 21735 please use the legend below to identify the colors, objects and their meanings in this document. legend 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 2 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant this layout examples document only references pi ns that are common to all rfd21731,2,3,4,5 modules and matter to the layout, which are ground and external antenna connections where applicable. to keep the file size of this documen t small, some of the larger images are outputted in lower resolutions, for full details on pinouts refer to the data sheet for the appropriate part number, which can all be found at http:// www.rfdigital.com. pins labels 3,4,5,6,7,14,15,16,17 change based on which part number module is being used, however that does not matter for this document, because the same layout rules apply to the rfd21731, rfd21732, rfd21733, rfd21734 and RFD21735 modules. majority of this document addresses the rfd21731, rfd21732, rfd21733 and the end of this document addresses the rfd21734 and RFD21735. if you have any questions, feel free to contact rf digi tal support anytime, we're always here to help you! rfd21731, rfd21732, rfd21733 layout example pinout 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 3 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the following layout examples are for the rfd21731, rfd21732 and rfd21733 module which all have a built-in chip antenna. later in this document there are examples for the rfd21734 and RFD21735 modules, which are for use with external antennas. rfd21731, rfd21732, rfd21733 layout examples this is a typical antenna pattern, however does vary based on many factors including surrounding components and ground planes. it is only provided as a reference. the one inch copper plane shown helps maintain the balanced antenna pattern and when possible should be used, if not possible, its not required. rfd21731, rfd21732, rfd21733 antenna pattern 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 4 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant when placing the module info a plastic enclosure, it is highly recommended that you locate the module in the corner of the enclosure / pcb so it will be as far away from your other components on the pcb and as close to free airspace as possible. in addition, you want to locate the module in a position in your product where it will have as much free airspace as possible near the antenna when in use. for example if it will be placed against a wa ll, it is preferred to locate the module so it will be in a location in your product where it will be on the side of the product where it will be further away from the wall, rather then directly next to it, so the rf signal can have as much free airspace to give you the best range performance possible. (note: if you plan on using a metal enclosure, you can not locate the module inside of the enclosure or it w ill have very limited range, for metal enclosures we recommend the rfd21743 which is specifically suited for that.) the electrical ground connection to the module is to be made with a thin trace so the one inch ground plane off to the side can be effective. rf signals in this area. if you place anything such as components, wires, metal pa rts of any type in this area, it will block the rf signals and drastically limit your range. leave this area open. rfd21731, rfd21732, rfd21733 keep out area - example 1 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 5 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the one-inch length copper area is optional, however does improve the range if y ou can add it. parts can be placed all over the rest of the board, however if possible keep about a half-inch distance from the one inch length ground area to the right of the module, again, only if possible. also the signal connections to the module can be made on either layer. the electri cal ground connection to the module is to be made with a thin trace so the one inch ground plane off to the side can be effective. rf signals in this area. if you place anything such as components, wires, metal pa rts of any type in this area, it will block the rf signals and drastically limit your range. leave this area open. rfd21731, rfd21732, rfd21733 - layout examples 2 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 6 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the one-inch length copper area is optional, however does improve the range if y ou can add it. parts can be placed all over the rest of the board, however if possible keep about a half-inch distance from the one inch length ground area to the right of the m odule, again, only if possible. rf signals in this area. if you place anything such as components, wires, metal pa rts of any type in this area, it will block the rf signals and drastically limit y our range. leave this area open. rfd21731, rfd21732, rfd21733 - layout examples 3 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 7 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the one-inch length copper area is optional, however does improve the range if y ou can add it. parts can be placed all over the rest of the board, however if possible keep about a half-inch distance from the one inch length ground area to the right of the m odule, again, only if possible. rfd21731, rfd21732, rfd21733 - layout examples 4 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 8 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the one-inch length copper area is optional, however does improve the range if y ou can add it. parts can be placed all over the rest of the board, however if possible keep about a half-inch distance from the one inch length ground area to the right of the m odule, again, only if possible. rfd21731, rfd21732, rfd21733 - layout examples 5 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 9 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the one-inch length copper area is optional, however does improve the range if y ou can add it. parts can be placed all over the rest of the board, however if possible keep about a half-inch distance from the one inch length ground area to the right of the m odule, again, only if possible. rfd21731, rfd21732, rfd21733 - layout examples 6 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 10 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the one-inch length copper area is optional, however does improve the range if y ou can add it. parts can be placed all over the rest of the board, however if possible keep about a half-inch distance from the one inch length ground area to the right of the module, again, only if possible. solid blue areas are solder side ground plane which can be used for user electronics as well as the module. these are all optional configurations and only for reference. rfd21731, rfd21732, rfd21733 - layout examples 7 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 11 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the one-inch length copper area is optional, however does improve the range if y ou can add it. parts can be placed all over the rest of the board, however if possible keep about a half-inch distance from the one inch length ground area to the right of the module, again, only if possible. solid blue areas are solder side ground plane which can be used for user electronics as well as the module. these are all optional configurations and only for reference. the two left examples are preferred, but the two right ones will work as well, but will not have as good of an antenna pattern. rfd21731, rfd21732, rfd21733 - layout examples 8 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 12 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the one-inch length copper area is optional, however does improve the range if y ou can add it. parts can be placed all over the rest of the board, however if possible keep about a half-inch distance from the one inch length ground area to the right of the module, again, only if possible. solid blue areas are solder side ground plane which can be used for user electronics as well as the module. these are all optional configurations and only for reference. the two left examples are preferred, but the two right ones will work as well, but will not have as good of an antenna pattern. rfd21731, rfd21732, rfd21733 - layout examples 9 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 13 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the one-inch length copper area is optional, however does improve the range if y ou can add it. parts can be placed all over the rest of the board, however if possible keep about a half-inch distance from the one inch length ground area to the right of the module, again, only if possible. solid blue areas are solder side ground plane which can be used for user electronics as well as the module. these are all optional configurations and only for reference. the space in the ground plane helps provide some rf discontinuity for the module to have he best ante nna pattern possible in this configuration, the optimal space to have is greater then 1.2 inches, but some space is better then no space. rfd21731, rfd21732, rfd21733 - layout examples 10 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 14 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. these shown are not good layout locations for the module since they take up most of your board area, it is best to locate the module similar to the examples shown in other areas of this document where you have more board space for your parts. these examples are shown as what not to do. if you place parts in the gray area, it will result in very bad range performance. rfd21731, rfd21732, rfd21733 - layout examples 11 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 15 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. these shown are not good layout locations for the module since they take up most of your board area, it is best to locate the module similar to the examples shown in other areas of this document where you have more board space for your parts. these examples are shown as what not to do. if you place parts in the gray area, it will result in very bad range performance. rfd21731, rfd21732, rfd21733 - layout examples 12 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 16 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. these are multi-module configurations. typical layouts for diversity a pplications where you will use multiple receivers, transmitters or transceivers all on the same board to limit multipath impacts and increase effective communication range or provide a very solid coverage area with limited dead-zones. the distances shown are not optimal, however just provided as reference. rfd21731, rfd21732, rfd21733 - layout examples 13 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 17 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. these are multi-module configurations. typical layouts for diversity a pplications where you will use multiple receivers, transmitters or transceivers all on the same board to limit multipath impacts and increase effective communication range or provide a very solid coverage area with limited dead-zones. the distances shown are not optimal, however just provided as reference. rfd21731, rfd21732, rfd21733 - layout examples 14 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 18 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant the gray area shows where to keep free from copper and components. the rfd21734 and RFD21735 require the use of an external antenna and therefore the most common connector used for this is an sma and the examples below show a typical sma connector footprint interface. pcb thickness is 0.031 inch to 0.062 inch, double sided. the blue color shows ground plane under the module on the solder side of the board. if you place ground plane or any traces under the greay area marked no-copper, then you will not have the option to use the rfd21731 / rfd21732 / rfd21733 which are the on-board chip antenna versions of the rfd21734 / RFD21735. so it is your choice if you choose to flood copper under that area or not. there is no benefit to flood copper in that area. if you choose to make a dual-mode layout to handle both module options, with chip an tenna or without (which is what we recommend), then also advise with the layout configurations above for proper application. we highly recommend that you look at the rfd21743 before starting a design with the rfd21734 or RFD21735. the rfd21743 is the rf digital worldwide patent pending rfdant which is a full rf module in an antenna form factor (fcc approval pending) allowing you to simply plug it into any product and not needing to do any rf layouts or deal with connectors or cables, in addition to having exceptional range. save time, money and no need for additional compliance approvals. rfd21734 and RFD21735 - layout examples 15 13715 alton pkwy ? irvine ? ca ? 92618 tel: 949.610.0008 ? fax: 949.610.0009 www.rfdigital.com ? sales@rfdigital.com for free rf layout design reviews, send color screen captures of your layout to support@rfdigital.com, you will save time and money before you fabricate your boards. we are always here to support you! 19 ? copyright, rf digital corp. 7/25/2010 11:04 am patents pending rohs rfd21733 fcc approved layout examples rfdant rf module rfd21743 rfd21731 rfd21741 rfd21732 rfd21733 rfd21734 RFD21735 etsi ? ce compliant important notice rf digital reserves the right to make corrections, modifications, and/or improvements to the product and/or its specifications at any time without notice. rf digital assumes no liability for the user?s product and/or applications. rf digital products are not authorized for use in safet y-critical applications, including but not limited to life-support applications. rf digital assumes no liability for parts or their app lication beyond replacement or refunding the original purchase price. all trademarks and trade names belong to their respective owners. end of document. |
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