radiometrix ltd, ktx2 data sheet page 1 features � designed for compliance with en 300 220-3 and en 3 01 489-3 � each transmitter module is pre-programmed and uniq ue � no additional circuitry required to use the module � 32-bit encryption ? more than 4 billion combinatio ns � usable range up to 300m � available at 433.92mhz � fully screened module � suitable for use with a radiometrix krx receiver-de coder the module combines full screening with extensive i nternal filtering for emc - minimising spurious rad iations and susceptibilities. the ktx2 module will suit wir eless control links in applications including car a nd building security and secure unidirectional remote process c ontrol. because of the small size and low power requirement the module is ideal for use in portable , battery-powered devices such as hand-held remote controls requiring data integrity and high security. technical summary � crystal-locked pll � fm data with manchester encoding � operation from 3v to 6v � +3dbm output on 433.92mhz � <1ua standby, 8ma tx current � supply status included in transmission the ktx2 is a miniature pcb mounting code-hopping uhf radio transmitter suitable for use in secure remote keyless control applications at distances up to 75 metres in-building or 300 metres open ground. figure 1: ktx2 - 433 uhf fm code-hopping data transmitter module hartcran house, 231 kenton lane, harrow, middlesex, ha3 8rp, england tel: +44 (0) 20 8909 9595, fax: +44 (0) 20 8909 223 3, www.radiometrix.com issue 1, 30 july 2012 ktx2
radiometrix ltd, ktx2 data sheet page 2 functional and operational description the ktx2 transmitter module is a crystal based pll controlled fm code-hopping transmitter with a pre- programmed electronic serial number (esn), operatin g between 3v and 6v supply, at 433.92mhz. ktx2 is designed to meet or exceed en 300 220-3 standards f or european use and delivers nominally +3dbm at 8ma (for 5v supply). the module measures 36.2 x 15.2 x 4.5 mm. the module is very easy to use: there are no modula tion input or transmitter-enable pins. the activat ion of any combination of the four function lines (s0 ? s3) ca uses a data transmission, part of which is the stat us of s0 ? s3, i.e. the function code. in this way, up to 15 different control combinations can be sent from one module. simple pushbuttons can be connected directly betwee n s0 ? s3 and vcc if desired. the module will tran smit repeatedly whilst any of the function lines is held high for up to 30 seconds (approx.), when a power- saving time-out feature is activated. fig. 2: ktx2 block diagram vcc (pin 4) +3v to +6v dc supply. max ripple content 0.1v p-p . decoupling is not generally required. s0 (pin 5) input (0) ? activate high (>0.55vcc ? vcc) to cause a transmission. s1 (pin 6) input (1) ? activate high (>0.55vcc ? vcc) to cause a transmission. s2 (pin 7) input (2) ? activate high (>0.55vcc ? vcc) to cause a transmission. s3 (pin 8) input (3) ? activate high (>0.55vcc ? vcc) to cause a transmission. internal use (pin 9) modulation (data). this pin is connected to the mo dulation input of the transmitter, therefore do not connect anything to this pin during operation of the module . rf gnd 433.92 mhz band pass filter buffer 1 rf out loop filter encoder ref osc 5 2 supply regulator 4 3 - 6vcc 32 v c o 3 0v 67 8 9 s1 s0 s2 s3 pin description: rf out (pin 1) 50 rf output to the antenna. internally dc- isolated. see antenna section of apps notes for details of suitable antennas. rf gnd (pin 2) rf ground, internally connected to the module screen and pin 3 (0v). this pin should be directly connected to the rf return path - e.g. coax braid, main pcb ground plane etc. 0v (pin 3) dc supply ground. internally connected to pin 2 and module screen. 4.5 mm 36.2 mm 15.2 mm 15.7 mm pcb level radiometrix ktx2 9 holes, 0.7 mm dia, pin spacing 2.54 mm fig 3: ktx2 physical dimensions 15.24 mm 1 1 = rf out 2 = rf gnd 3 = 0v 4 = vcc 6 = s1 7 = s2 5 = s0 2 3 4 5 6 7 8 9 8 = s3 9 = internal use
radiometrix ltd, ktx2 data sheet page 3 notes on the ktx2 : 1. the module will transmit if any of the function lines (s0 ? s3) is activated (high). 2. single message time is typically 150ms. 3. whilst s0 ? s3 are all deactivated (low) standby current consumption is <1ua. 4. the module will transmit the same message (with the same hop-code) repeatedly whilst any of the function lines are held active high, until power-sa ving time-out occurs after approx. 30s. 5. when the power-saving timeout occurs, current co nsumption will be <350ua, until all function line(s) are released again. 6. whilst a function line is held high, if another function line is taken high then the function code in the message changes to reflect the new state of the fun ction lines and the hop-code is also changed ? as if the user had released all function lines and activated the new combination. 7. releasing individual function lines (whilst at l east one function line remains high) has no effect on the transmitted message. 8. the supply monitoring status bit is set when mod ule supply drops below 3.8v (approx.) and resets when supply falls even further ? below 2.2v (approx .) ? but note that this is less than the minimum supply recommended for use with ktx2. description of the ktx/krx code hopping system : every time a function code is activated causing ktx to transmit, a hop-code is generated. the hop-cod e is an encryption based upon a manufacturer code and the m odule esn (unique to each module). an encryption algorithm uses these two variables to generate the hop-code, which will change for every new transmiss ion. note that the data itself (i.e. the function code) is not encrypted, as it is the identity and status of the sender that is used to safeguard operation of the system. at the krx receiver-decoder, the hop-code can only be decrypted with the correct key. the key is deri ved from the manufacturer code and the ktx serial number. t he manufacturer code is not transmitted: it is pre- programmed into the decoder. because the hop-code is changed for every new transmission the receiver decoder must be synchronised to the transmitter enc oder. this is achieved by ?learning? the transmitt er to the receiver during which the serial number and synchro nisation data is stored in the receiver-decoder. transmissions received from all ktx modules are dec oded, but not acted upon unless the serial number h as been learned first and the decoder is synchronised to the encoder. if the radiometrix krx decoder loses synchronisatio n with the transmitter (e.g. repeated transmitter a ctivation whilst out of range) then the ktx module must be ac tivated twice before the decoder will allow the con trol to be processed, but only if the ktx module is within a forward window of +32768 activations. this mechanism prevents ?code-grabbers? from breaking the security of the system by recording and re-broadcasting old codes. additionally, in the krx decoder a window exists al lowing up to 14 transmissions to occur whilst the t ransmitter is out of range before two valid sequential transmi ssions are required to use the system. in practice a user may not notice the latter, since human reaction to an u nsuccessful attempt is simply to ?press the button again?.
radiometrix ltd, ktx2 data sheet page 4 absolute maximum ratings survival maximums: exceeding the values given below may cause permanen t damage to the module. operating temperature - -20 c to +70 c storage temperature -40 c to +100 c vcc (pin 4) -0.3v to +6.9v function input (pins 5-8) vcc +/-0.3v rf out (pin 1) 50v dc 10dbm rf performance specifications: ktx2 transmitter. (temperature = 20c unless stated) pin min. typ. max. units notes dc levels supply voltage 4 3.0 4.5 6.0 v 3 current & rf power ktx2-433 supply current @ vcc = 5v 4 6 8 10 ma rf power @ vcc = 3 ? 6v 1 +1 +3 +5 dbm 1 standby current <1ua rf harmonics < 1ghz 1 - -46 dbc 1 harmonics > 1ghz 1 - -46 dbc 1 initial frequency accuracy - -15 +/-10 +15 khz overall frequency accuracy - -25 +/-10 +25 khz 2 fm deviation (+/-) - 20 27 35 khz notes: 1. measured into a 50 load. 2. ?20 to +70c @ vcc = 5v 3. operational at 2.8v but with reduced deviation ( typ. +/-15khz)
radiometrix ltd, ktx2 data sheet page 5 power supply requirement the ktx2 module incorporates a built-in regulator w hich delivers a constant 2.8v supply to the rf circ uitry when the external supply voltage is 2.85v or greate r, with 40db or more of supply ripple rejection. th is ensures constant performance up to the maximum permitted su pply rail and removes the need for external supply decoupling except in cases where the supply rail is extremely poor (ripple/noise content >0.1vp-p). note, however, that for supply voltages lower than 2.85v the regulator is effectively inoperative and supply ripple rejection is considerably reduced. under the se conditions the ripple/noise on the supply rail s hould be below 10mvp-p to avoid problems. if the quality of the supply is in doubt, it is recommended that a 10 f low- esr tantalum or similar capacitor be added between the module supply pin (vcc) and ground, together wi th a 10 series feed resistor between the vcc pin and the s upply rail. the module current in standby mode (vcc applied, s0 , s1, s2, s3 all at 0v) is less than 1 a. the ktx2 incorporates a low voltage shutoff circuit , which prevents any possibility of erratic operati on by disabling the rf output if the supply voltage drops below 2.2v (5%). this feature is self-resetting, i.e. restoring the supply to greater than 2.2v will immediately re store rf output from the module. module mounting considerations the module may be mounted vertically or bent horizo ntal to the motherboard. good rf layout practice sh ould be observed ? in particular, any ground return requ ired by the antenna or feed should be connected dir ectly to the rf gnd pin at the antenna end of the module, an d not to the ov pin which is intended as a dc groun d only. all connecting tracks should be kept as short as possible to avoid any problems with stray rf pi ckup. if the connection between module and antenna does n ot form part of the antenna itself, it should be ma de using 50 microstrip line or coax or a combination of both. it is desirable (but not essential) to fill all unu sed pcb area around the module with ground plane. warning: do not wash the module. it is not hermetically se aled. recommended horizotal mounting method optional solder joint for extra mechanical strength vertical mounting method figure 4: module mounting options
radiometrix ltd, ktx2 data sheet page 6 antenna requirements three types of integral antenna are recommended and approved for use with the module: a. helical antenna b. loop antenna rf c1 c2 c4 c3 rf-gnd c. whip antenna 16.4cm rf 0.5 mm enameled copper wire close wound on 3.2 mm diameter former 433 mhz = 24 turns feed point 15% to 25% of total loop length track width = 1mm 4 to 10 cm inside area wire, rod, pcb-track or a combination of these three 433 mhz = 16.4 cm total from rf pin. 2 rf fig.5: antenna configuration feature a b c helical loop whip ultimate performance ** * *** easy of design set-up ** * *** size *** ** * immunity proximity effects ** *** * range open ground to similar antenna (for ktx2-433 & rx2a-433-10) 200m 100m 300m antenna selection chart a) helical wire coil, connected directly to pin 2, open circu it at other end. this antenna is very efficient given it's small size (20mm x 4mm dia.). the helical is a high q antenna, trim the wire length or expand the coil for optimum results. the helical de-tunes badly with proximity to other conductive objects. b) loop a loop of pcb track tuned by a fixed or variable capacitor to ground at the 'hot' end and fed from pin 2 at a point 20% from the ground end. loop s have high immunity to proximity de- tuning. c) whip this is a wire, rod, pcb track or combination conn ected directly to pin 2 of the module. optimum total length is 15.5cm (1/4 wave @ 433mhz). keep the open circuit (hot) end well away from metal components to prevent serious de-tu ning. whips are ground plane sensitive and will benefit from internal 1/4 wave earthed rad ial(s) if the product is small and plastic cased the antenna choice and position directly controls t he system range. keep it clear of other metal in th e system, particularly the 'hot' end. the best position by fa r, is sticking out the top of the product. this is often not desirable for practical/ergonomic reasons thus a co mpromise may need to be reached. if an internal ant enna must be used try to keep it away from other metal c omponents, particularly large ones like transformer s, batteries and pcb tracks/earth plane. the space aro und the antenna is as important as the antenna itse lf.
radiometrix ltd, ktx2 data sheet page 7 duty cycle requirements the duty cycle is defined as the ratio, expressed a s a percentage, of the maximum transmitter ?on? tim e on one or more carrier frequencies, relative to a one hour period. where an acknowledgement message is requir ed, the additional transmitter ?on? time shall be inclu ded. there is a 10% duty cycle restriction on 433.050-43 4.790 mhz band in most of the eu member states. the ktx2-433 is a rf module intended to be incorpor ated into a wide variety of applications and finish ed products, radiometrix has no control over the end u se of the ktx2-433.the harmonised band 433.050 to 434.790 mhz as detailed in annex 1 band e of cept/e rc recommendation 70-03 (which can be downloaded at http://www.ero.dk/scripts/docmanag98/ dm.dll/querydoc?cat=recommendation) has list of countries where duty cycle restriction apply. module users should, therefore, ensure that they co mply with the stated duty cycle requirements of the version of cept/erc recommendation 70-03 in place at the ti me of incorporation of the ktx2-433 into their prod uct. it should be noted that the stated duty cycle must not be exceeded otherwise any approval granted for the ktx2-433 will be invalidated. variants and ordering information the ktx2 is available as a standard version: ktx2-433 the standard frequency is 433.92mhz, for other freq uency variants, please contact sales department. for all other variants please contact sales departm ent. to make a complete code-hopping system: suitable receiver module to use with ktx2: rx2a-433-10 suitable decoder ic for use with rx2a: krx416-000-dil or use a complete relay output board (includes rx2a module) for use with ktx2 modules (mapping the four ktx2 function lines to four change-over re lays) kdec-433-000
radiometrix ltd hartcran house 231 kenton lane harrow, middlesex ha3 8rp england tel: +44 (0) 20 8909 9595 fax: +44 (0) 20 8909 2233 sales@radiometrix.com www.radiometrix.com copyright notice this product data sheet is the original work and co pyrighted property of radiometrix ltd. reproduction in whole or in part must give clear acknowledgement to the copyright owner. limitation of liability the information furnished by radiometrix ltd is bel ieved to be accurate and reliable. radiometrix ltd reserves the right to make changes or improvements in the design, specification or manufacture of its subassembly products without notice. radiometrix lt d does not assume any liability arising from the application or use of any product or circuit descri bed herein, nor for any infringements of patents or other rights of third parties which may result from the u se of its products. this data sheet neither states nor implies warranty of any kind, including fitness for any particular application. these radio devices ma y be subject to radio interference and may not function as intended if interference is present. we do not recommend their use for life critical applications. the intrastat commodity code for all our modules is : 8542 6000 r&tte directive after 7 april 2001 the manufacturer can only place finished product on the market under the provisions of the r&tte directive. equipment within the scope of the r&tte directive may demonstrate compliance to the essential requirements specified in article 3 o f the directive, as appropriate to the particular equipment. further details are available on the office of comm unications (ofcom) web site: http://www.ofcom.org.uk/ information requests ofcom riverside house 2a southwark bridge road london se1 9ha tel: +44 (0)300 123 3333 or 020 7981 3040 fax: +44 (0)20 7981 3333 information.requests@ofcom.org.uk european communications office (eco) peblingehus nansensgade 19 dk 1366 copenhagen tel. +45 33896300 fax +45 33896330 ero@ero.dk www.ero.dk
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