revised 1/28/08 kh2 series basic evaluation kit user?s guide wireless made simple ? introduction linx kh2 series rf modules offer a simple, efficient, and cost-effective method of adding wireless communication capabilities to any product. the basic evaluation kit is intended to give a designer all the tools necessary to correctly and legally incorporate the kh2 series modules into an end product. the development boards themselves serve several important functions: ? rapid module evaluation - the boards allow the performance of the linx kh2 series modules to be evaluated quickly in a user?s environment. ? range testing - using the on-board encoders and decoders to generate a simplex transmission, a pair of development boards can be used to evaluate the range performance of the modules. ? design benchmark - during the design process of your product, the boards provide a known benchmark against which the performance of your own design can be judged. ? application development - an on-board prototyping area is provided to allow a designer to develop applications directly on the development board. all signal lines are available on a breakout header for easy connection to the designer?s circuits. the purpose of this guide is to show the designer how to take full advantage of the basic development boards included with the kit. the kit includes 2 kh2 series transmitters*, 2 kh2 series receivers*, 2 extra pcb- mount rp-sma connectors, 2 development boards, 2 cw series antennas, 1 cr2032 battery, 2 aaa batteries, and full documentation. *one part is soldered to the board, one extra for use on your first prototype board. part # description eval-***-kh2 kh2 series basic evaluation kit *** = 315, 418 (standard), 433mhz ordering information eval-315-kh2 eval-418-kh2 EVAL-433-KH2
page 3 page 2 kh2 transmitter evaluation board kh2 receiver evaluation board theory of operation transmitter evaluation board the transmitter board is powered by an on-board 3v cr2032 lithium battery. it has eight spst pushbutton switches, the state of which are encoded into a data stream by the module. if a switch is closed, the module will capture the settings of the 10-position dip switch address bits and pushbutton states for encoding and transmission. the transmitter will transmit continuously when any switch is closed or when transmit enable (te) is pulled high. this board has a prototyping area with all of the transmitter lines brought out to a header for easy access by external circuitry. receiver evaluation board the receiver board is powered by two aaa batteries. the kh2 series receiver exhibits a sensitivity of greater than -112dbm, so under optimum line-of-sight conditions, the transmitter / receiver link can operate over distances of up to 3,000 feet. the data recovered by the kh2 series receiver is internally decoded. if the settings of the 10-position dip switch on the receiver board match the address setting of the transmitter board, the data lines are updated to match the state of the data lines (or pushbuttons) on the transmitter board. to demonstrate this, one data line is used to drive a led while another is used to activate a buzzer. switching transistors are used as drive buffers because the kh2 receiver cannot directly source the current necessary to operate these devices. this board has a prototyping area with all of the receiver lines brought out to a header for easy access by external circuitry. using the kit using the kit is straightforward. simply attach the antennas, turn on the power, and press one or both of the buttons on the transmitter board. when s0 is pressed, the buzzer will sound; when s1 is pressed, the led will turn on. development using the prototyping area in addition to their evaluation functions, the boards may also be used for actual product development. they feature a prototyping area to facilitate the addition of application-specific circuitry. this area has a connection to v cc at the top and ground at the bottom that can be used to power the added circuitry. note: the cr2032-style battery on the transmitter board has very low current capacity, with only about 3ma available for external circuitry. if added circuitry requires a higher current, the battery must be removed and the board powered from an external source. the holes are plated and set at 0.100? on center with a 0.040? diameter, making it easy to add most industry-standard sip and dip packages to the board. on the transmitter board, the data lines and the te line from the encoder have been wired out to a header on the right side of the prototyping area. on the receiver board, the data lines from the decoder plus the pdn, and data lines from the receiver have been wired out. this allows for easy access to connect external circuitry to the modules, the encoder, and the decoder. data line d0 is connected to the buzzer and d1 is connected to the led. 1. battery - 3vdc (use a cr2032-style battery only) 2. power switch 3. momentary pushbutton - s0 (d0) 4. momentary pushbutton - s1 (d1) 5. continuous transmit switches 6. prototyping area 7. reverse-polarity sma antenna connector 8. kh2 series transmitter module 9. 10-position address dip switch 1 2 7 3 4 5 6 8 9 1. battery - 3vdc (use 2 aaa style batteries only) 2. power switch 3. buzzer - d0 4. led - d1 5. prototyping area 6. kh2 series receiver module 7. reverse-polarity sma antenna connector 8. 10-position address dip switch 1 2 7 3 4 5 6 8
page 5 page 4 using the boards as a design reference the basic evaluation boards included in this kit are very simple, yet they illustrate some important techniques that you may wish to incorporate into your own board layout. you will observe that the kh2 mounting pads extend slightly past the edge of the part. this eases hand assembly and allows for better heat conduction under the part if rework is necessary. next, observe the use of a full ground plane fill on the lower side of the board. this ground plane serves three important purposes: first, since a 1/4-wave antenna is employed, the ground plane is critical to serve as a counterpoise (you may wish to read application note an-00500 antennas: design, application, and performance for additional details on how a ground plane affects antenna function). second, a ground plane will suppress the transfer of noise between stages of a product, as well as unintentional radiation of noise into free space. third, a ground plane allows for the implementation of a microstrip feed to the antenna. the term microstrip refers to a pcb trace running over a ground plane that is designed to serve as a 50-ohm transmission line between the module and the antenna. a microstrip is implemented on this evaluation board. if you are unfamiliar with microstrip calculations, you may wish to refer to the kh2 series data guides or the calculator available on our website. in closing here at linx, ?wireless made simple? is more than just our motto, it is our commitment. a commitment to the highest caliber of product, service, and support. that is why, should you have questions or encounter any difficulties using the evaluation kit, you?ll be glad to know many resources are available to assist you. first, check carefully for the obvious, then visit our website at www.linxtechnologies.com or call 541-471-6256 between 9am and 4pm pacific time to speak with an application engineer. legal notice all linx kits and modules are designed in keeping with high engineering standards; however, it is the responsibility of the user to ensure that the products are operated in a legal and appropriate manner. the purchaser understands that legal operation may require additional permits, approvals, or certifications prior to use, depending on the country of operation. online resources if you have questions regarding any linx product and have internet access, make www.linxtechnologies.com your first stop. our website is organized in an intuitive format to give you the answers you need. day or night, the linx website gives you instant access to the latest information regarding the products and services of linx. it?s all here: manual and software updates, application notes, a comprehensive knowledgebase, fcc information, and much more. be sure to visit often! range testing several complex mathematical models exist for determining path loss in many environments. these models vary as the transmitter and receiver are moved from indoor operation to outdoor operation. although these models can provide an estimation of range performance in the field, the most reliable method is to simply perform range tests using the transmitter and receiver in the intended operational environment. simple range testing can be performed with the transmitter and receiver evaluation boards. to prepare the board for range testing, ensure that the address line dip switches on both boards are identically set. turn on the boards by switching the power switch to the on position. pressing s0 on the transmitter will activate the buzzer on the receiver board, while s1 activates the led. sliding switch sw0 or sw1 to the right will cause the transmitter to continiously transmit. this will allow the designer to turn on the transmitter and walk with the receiver. as you near the maximum range of the link in your area, it is not uncommon for the signal to cut in and out as you move. this is normal and can result from other interfering sources or fluctuating signal levels due to multipath effects. this results in cancellation of the transmitted signal as direct and reflected signals arrive at the receiver at differing times and phases. the areas in which this occurs are commonly called ?nulls? and simply walking a little farther will usually restore the signal. since the evaluation boards are intended for use by design engineers, they are not fcc certified. the transmitter has been set to approximate legal limits by resistor r1 so that the range test results will approximate the results from a well- designed, certified product. for applications where part 15 limits are not applicable or output levels can be legally raised due to protocol duty cycle, r1 can be changed according to the graph on page 3 of the kh2 series transmitter data guide. to achieve maximum range, keep objects such as your hand away from the antenna and ensure that the antenna on the transmitter has a clear and unobstructed line-of-sight path to the receiver board. range performance is determined by many interdependent factors. if the range you are able to achieve is significantly less than specified by linx for the products you are testing, then there is likely a problem with either the board or the ambient rf environment in which the board is operating. first, check the battery, jumper routing, and antenna connections. next, measure the receiver?s rssi voltage with the transmitter turned off to determine if ambient interference is present. if this fails to resolve the issue, please contact linx technical support. about antennas the choice of antennas is one of the most critical and often overlooked design considerations. the range, performance, and legality of an rf link are critically dependent upon the type of antenna employed. linx offers a variety of antenna styles that you may wish to consider for your design. included with your kit is a linx cw series connectorized whip antenna that should be connected prior to using the kit. despite the fact that the antenna is not centered on the board?s ground plane, it exhibits a vswr of <1.9 and suitably demonstrates the module?s best practical performance.
page 6 page 7 q1 2n2222 r 3 2.2k r4 10k vcc q2 2n2222 r6 2.2k r5 10k r7 220 ohm vcc vcc s 4 eg121 8 1 2 3 20 19 1 8 4 5 6 17 16 15 7 8 9 14 1 3 12 10 11 s 1 s w-dip-10 gnd gnd gnd vcc gnd gnd gnd bz1 buzzer b` 4 c 5 c` 6 gnd 7 b 3 a` 2 a 1 e 11 f` 12 f 1 3 vcc 14 e` 10 d 9 d` 8 u2 cd4069ub hex inverter c1 0.01 u f r1 100k r2 10k rf 1 gnd 2-5 ant1 conrev s ma001 nc 1 d0 2 d1 3 gnd 4 vcc 5 pdn 6 d2 7 d 3 8 d4 9 data 10 vt 11 d5 12 d6 1 3 d7 14 a0 15 a1 16 a2 17 a 3 1 8 a4 19 a5 20 a6 21 a7 22 a 8 2 3 a9 24 r ss i 25 nc 26 gnd 27 ant 2 8 u1 rxd-xxx-kh2 led1 1 2 3 4 5 6 7 8 9 10 t s 1 te s t s trip 1 b1 bat-linx20 3 2 vcc s8 eg121 8 gnd b1 bat-linx20 3 2 + c1 10 u f gnd vcc 1 2 3 20 19 1 8 4 5 6 17 16 15 7 8 9 14 1 3 12 10 11 s 9 s w-dip-10 gnd gnd gnd vcc vcc gnd vcc vcc r1 0 ohm s w1 s w- s pdt s w0 s w- s pdt gnd/lvl 1 d0 2 d1 3 gnd 4 vcc 5 te 6 d2 7 d 3 8 d4 9 d5 10 d6 11 d7 12 a0 1 3 a1 14 a2 15 a 3 16 a4 17 a5 1 8 a6 19 a7 20 a 8 21 a9 22 gnd 2 3 ant 24 u1 txe-xxx-kh2 rf 1 gnd 2-5 ant1 conrev s ma001 s 6 s 7 s 5 s 4 s3 s 2 s 1 s 0 d 3 d4 d5 d7 d6 d2 d1 d0 te 1 2 3 4 5 6 7 8 9 10 t s 1 te s t s trip 1 gnd d 3 d4 d5 d7 d6 d2 d1 d0 te d7 d6 d5 d4 d0 d 3 d2 d1 r2 100k gnd te eval-***-kh2 receiver board schematic eval-***-kh2 transmitter board schematic
linx technologies, inc. 159 ort lane merlin, or 97532 phone: (541) 471-6256 fax: (541) 471-6251 www.linxtechnologies.com u.s. corporate headquarters wireless made simple ? linx technologies is continually striving to improve the quality and function of its products. for this reason, we reserve the right to make changes to our products without notice. the information contained in this overview guide is believed to be accurate as of the time of publication. specifications are based on representative lot samples. values may vary from lot-to-lot and are not guaranteed. "typical" parameters can and do vary over lots and application. linx technologies makes no guarantee, warranty, or representation regarding the suitability of any product for use in any specific application. it is the customer's responsibility to verify the suitability of the part for the intended application. no linx product is intended for use in any application where the safety of life or property is at risk. linx technologies disclaims all warranties of merchantability and fitness for a particular purpose. in no event shall linx technologies be liable for any of customer's incidental or consequential damages arising in any way from any defective or non-conforming products or for any other breach of contract by linx technologies. the limitations on linx technologies' liability are applicable to any and all claims or theories of recovery asserted by customer, including, without limitation, breach of contract, breach of warranty, strict liability, or negligence. customer assumes all liability (including, without limitation, liability for injury to person or property, economic loss, or business interruption) for all claims, including claims from third parties, arising from the use of the products. the customer will indemnify, defend, protect, and hold harmless linx technologies and its officers, employees, subsidiaries, affiliates, distributors, and representatives from and against all claims, damages, actions, suits, proceedings, demands, assessments, adjustments, costs, and expenses incurred by linx technologies as a result of or arising from any products sold by linx technologies to customer. under no conditions will linx technologies be responsible for losses arising from the use or failure of the device in any application, other than the repair, replacement, or refund limited to the original product purchase price. devices described in this publication may contain proprietary, patented, or copyrighted techniques, components, or materials. under no circumstances shall any user be conveyed any license or right to the use or ownership of such items. disclaimer ? 2008 by linx technologies, inc. the stylized linx logo, linx, ?wireless made simple?, cipherlinx, and the stylized cl logo are the trademarks of linx technologies, inc. printed in u.s.a.
|
