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| general description the max14591 evaluation kit (ev kit) is a fully assembled and tested circuit board that demonstrates the function - ality of the max14591 high-speed, open-drain capable logic-level translator in both the 8-bump wlp and 8-pin tdfn packages. the ev kit enables direct evaluation of the device by multiple jumper-selectable methods. the highly configurable pcb allows the user to evaluate each package separately or both at once. input power to the ev kit is provided by a micro-usb, type-b connector or an external 5v power supply. on-board ldo regulators provide the appropriate voltage for each component, and potentiometers allow the user to adjust the power supply for either side of the level translator independently. features and benefts proven pcb layout ? decrease evaluation time fully assembled and tested on-board adjustable oscillators ? evaluate without external function generator jumper-selectable open-drain and push-pull buffers enable simple evaluation quick start required equipment ? max14591 ev kit ? digital voltmeter (dvm) ? usb power source or another 5v external power supply ? oscilloscope and at least one scope probe procedure the ev kit is fully assembled and tested. follow the steps below to verify board operation and begin evaluation: 1) if using a usb bus to power the board, connect the included micro-usb cable between the micro-usb, type-b connector (j1) and the usb power source, such as a computer or dedicated usb charging port, and install a shunt on jumper ju4 shorting pins 1-2. 2) if using an external power source to power the board, connect the external power supply at the vbus test point (tp26) and install a shunt on jumper ju4 short - ing pins 2-3. 3) connect the dvm between gnd (tp6) and v cc (tp24). adjust the first potentiometer (pot1) until the desired voltage for v cc appears on the dvm by turn - ing the screw on the potentiometer to the right or to the left. 4) connect the dvm between gnd (tp6) and v l (tp25). adjust the second potentiometer (pot2) until the desired voltage for v l appears on the dvm by turning the screw on the potentiometer to the right or to the left. note that v l should be lower than v cc . 5) connect the jumpers in the desired configuration, based on the descriptions in table 1. 6) after implementing the desired configuration, con - nect the oscilloscope probe to the output evaluated to observe the translated voltage of the input signal. 19-6828 ; rev 0; 10/13 ordering information appears at end of data sheet. evaluates: max14591 max14591 evaluation kit
maxim integrated 2 jumper shunt position description jp1 1-2 pullup resistor connect for i/ovl2 of u2. connects a 1k? pullup resistor between v l and i/ovl2. not installed pullup resistor disconnect for i/ovl2 of u2. disconnects the 1k? pullup resistor between v l and i/ovl2. jp2 1-2 connects open-drain buffer to driving signal bus for channel i/ovl1. the open-drain buffer is driven by the output of ds1090-16 (u4). the frequency of the signal is adjustable using pot3. 1-3 connects external source connected at tp9 to driving signal bus for channel i/ovl1. 1-4 connects push-pull buffer to driving signal bus for channel i/ovl1. the push-pull buffer is driven by the output of ds1090-1 (u5). the frequency of the signal is adjustable using pot4. jp3 1-2 pullup resistor connect for i/ovcc2 of u2. connects a 1k? pullup resistor between v cc and i/ ovcc2. not installed pullup resistor disconnect for i/ovcc2 of u2. disconnects the 1k? pullup resistor between v cc and i/ovcc2. jp4 1-2 power to the board supplied at the micro-usb connector (j1). 2-3 power to the board supplied at the external vbus test point (tp26). jp5 1-2 connects the open-drain buffer to driving signal bus for channel i/ovl2. the open-drain buffer is driven by the output of ds1090-16 (u4). the frequency of the signal is adjustable using pot3. 1-3 connects external source connected at tp13 to driving signal bus for channel i/ovl2. 1-4 connects push-pull buffer to driving signal bus for channel i/ovl2. the push-pull buffer is driven by the output of ds1090-1 (u5). the frequency of the signal is adjustable using pot4. jp6 1-2 connects the ts pin of u1 to v l , placing the devices i/o pins in normal operating mode. 2-3 connects the ts pin of u1 to gnd, placing the devices i/o pins in high-impedance, three-state mode. jp7 1-2 pullup resistor connect for i/ovcc1 of u1. connects a 1k? pullup resistor between v cc and i/ovcc1. not installed pullup resistor disconnect for i/ovcc1 of u1. disconnects the 1k? pullup resistor between v cc and i/ovcc1. jp9* 1-2 connects i/ovcc1 of u1 to the driving signal bus for channel i/ovcc1. not installed disconnects i/ovcc1 of u1 from the driving signal bus for channel i/ovcc1. jp10* 1-2 connects i/ovcc1 of u2 to the driving signal bus for channel i/ovcc1. not installed disconnects i/ovcc1 of u2 from the driving signal bus for channel i/ovcc1. jp11 1-2 pullup resistor connect for i/ovl1 u1. connects a 1k? pullup resistor between v l and i/ovl1. not installed pullup resistor disconnect for i/ovl1 of u1. disconnects the 1k? pullup resistor between v l and i/ovl1. jp12 1-2 connects open-drain buffer to driving signal bus for channel i/ovcc1. the open-drain buffer is driven by the output of ds1090-16 (u4). the frequency of the signal is adjustable using pot3. 1-3 connects external source connected at tp16 to driving signal bus for channel i/ovcc1. 1-4 connects push-pull buffer to driving signal bus for channel i/ovcc1. the push-pull buffer is driven by the output of ds1090-1 (u5). the frequency of the signal is adjustable using pot4. table 1. jumper configuration (jp1Cjp7, jp9Cjp15, jp17Cjp25) www.maximintegrated.com evaluates: max14591 max14591 evaluation kit maxim integrated 3 * the following pairs are mutually exclusive. do not connect both of any of the following pairs at the same time: jp9 and jp23, jp10 and jp25, jp15 and jp21, and jp20 and jp22. jumper shunt position description jp13 1-2 pullup resistor connect for i/ovl2 of max14591ewa+ (u1). connects a 1k? pullup resistor between v l and i/ovl2. not installed pullup resistor disconnect for i/ovl2 of max14591ewa+ (u1). disconnects the 1k? pullup resistor between v l and i/ovl2. jp14 1-2 pullup resistor connect for i/ovcc2 of max14591ewa+ (u1). connects a 1k? pullup resistor between v cc and i/ovcc2. not installed pullup resistor disconnect for i/ovcc2 of max14591ewa+ (u1). disconnects the 1k? pullup resistor between v cc and i/ovcc2. jp15* 1-2 connects i/ovcc2 of u1 to the driving signal bus for channel i/ovcc2. not installed disconnects i/ovcc2 of u1 from the driving signal bus for channel i/ovcc2. jp17 1-2 connects open-drain buffer to driving signal bus for channel i/ovcc2. the open-drain buffer is driven by the output of ds1090-16 (u4). the frequency of the signal is adjustable using pot3. 1-3 connects external source connected at tp17 to driving signal bus for channel i/ovcc2. 1-4 connects push-pull buffer to driving signal bus for channel i/ovcc2. the push-pull buffer is driven by the output of ds1090-1 (u5). the frequency of the signal is adjustable using pot4. jp18 1-2 pullup resistor connect for i/ovl1 of u2. connects a 1k? pullup resistor between v l and i/ovl1. not installed pullup resistor disconnect for i/ovl1 of u2. disconnects the 1k? pullup resistor between v l and i/ovl1. jp19 1-2 pullup resistor connect for i/ovcc1 of u2. connects a 1k? pullup resistor between v cc and i/ ovcc1. not installed pullup resistor disconnect for i/ovcc1 of u2. disconnects the 1k? pullup resistor between v cc and i/ovcc1. jp20* 1-2 connects i/ovcc2 of u2 to the driving signal bus for channel i/ovcc2. not installed disconnects i/ovcc2 of u2 from the driving signal bus for channel i/ovcc2. jp21* 1-2 connects i/ovl2 of u1 to the driving signal bus for channel i/ovl2. not installed disconnects i/ovl2 of u1 from the driving signal bus for channel i/ovl2. jp22* 1-2 connects i/ovl2 of u2 to the driving signal bus for channel i/ovl2. not installed disconnects i/ovl2 of u2 from the driving signal bus for channel i/ovl2. jp23* 1-2 connects i/ovl1 of u1 to the driving signal bus for channel i/ovl1. not installed disconnects i/ovl1 of u1 from the driving signal bus for channel i/ovl1. jp24 1-2 connects ts pin of u2 to v l , placing the devices i/o pins in normal operating mode. 2-3 connects ts pin of u2 to gnd, placing the devices i/o pins in high-impedance three-state mode. jp25* 1-2 connects i/ovl1 of u2 to the driving signal bus for channel i/ovl1. not installed disconnects i/ovl1 of u2 from the driving signal bus for channel i/ovl1. table 1. jumper configuration (jp1Cjp7, jp9Cjp15, jp17Cjp25) (continued) www.maximintegrated.com evaluates: max14591 max14591 evaluation kit maxim integrated 4 component list detailed description of hardware the max14591 ev kit is a fully assembled and tested circuit board that demonstrates the functionality of the max14591 high-speed, open-drain capable logic-level translator in both the 8-bump wlp and 8-pin tdfn pack - ages. the ev kit features enables direct evaluation of the device by multiple jumper-selectable methods. the highly configurable pcb allows the user to evaluate each package separately or both at once. input power to the ev kit is provided by a micro-usb, type-b connector or an external 5v power supply. on-board ldo regulators provide the appropriate voltage for each component, and potentiometers allow the user to adjust the power supply for either side of the level translator independently. the ev kits pcb is designed with 1oz copper. power supply the ev kit is powered by a user-supplied 5v external dc power supply connected between the vbus test point (tp26) and gnd, or the usb bus provided at the micro- usb connector (j1). the power supply is then converted into three independent voltages. the pin-selectable output voltage of the max8902a (u3) provides a 4.6v supply for peripherals such as the nc7wz07 open-drain buffer, as well as for the ds1090 econoscillators?. two separate max8902b ics are used to generate the power for the v cc and v l supplies on the max14591. the v cc sup- ply is generated by u6, which also provides power to the push-pull buffer for the v cc channels (u10). the v l sup- ply is generated by u7, which also provides power to the push-pull buffer for the v l channels (u8). on-board oscillators the ev kit features two on-board oscillators to generate input signals to the device. the ds1090-1 (u5) is used to generate a potentiometer-adjustable clock from 4mhz to 8mhz, while the ds1090-16 (u4) generates a poten - tiometer adjustable clock from 250khz to 500khz. these clock signals can be connected to individual channels using 4-way jumpers jp2, jp5, jp12, and jp17 (table 1). push-pull and open-drain evaluation each channel can be driven in either push-pull mode or open-drain mode. for evaluation of push-pull operation or low-speed open-drain operation, use the on-board oscil - lators. simply connect the open-drain buffer or push-pull buffer through one of the 4-way jumpers to the channel to be driven to begin evaluation. see table 1 for jumper configurations. for high-speed open-drain operation, an external function generator is required. econoscillator is a trademark of maxim integrated products, inc. designation qty description c1, c3, c4, c6, c9, c11 6 10f 10%, 6.3v x5r ceramic capacitors (0805) c2, c5, c10 3 0.01f 10%, 16v x7r ceramic capacitors (0603) c7, c8, c12, c13Cc18 8 0.1f 10%, 16v x7r ceramic capacitors (0603) c14, c19 2 1f 10%, 16v x5r ceramic capacitors (0603) d1 1 red led (0805) stanley electric br1112h-tr j1 1 micro usb, type-b receptacle hirose zx62d-b-5pa8 jp1, jp3, jp7, jp9Cjp11, jp13Cjp15, jp18Cjp23, jp25 16 2-pin, single-row headers designation qty description jp2, jp5, jp12, jp17 4 4-pin headers jp4, jp6, jp24 3 3-pin, single-row headers pot1, pot2 2 500k? 10%, 0.25w potentiometers murata pv37w504c01b00 pot3, pot4 2 50k? 10%, 0.25w potentiometers murata pv37w503c01b00 r1 1 470? 5% resistor (0805) r2 1 1.5k? 1% resistor (0805) r3 1 120k? 1% resistor (0805) r4, r5 2 43k? 5% resistors (0805) r6 1 80.6k? 1% resistor (0805) r7 1 68k? 1% resistor (0805) www.maximintegrated.com evaluates: max14591 max14591 evaluation kit maxim integrated 5 component suppliers component list (continued) note: indicate that you are using the max14591 when contacting these component suppliers. * ep = exposed pad. designation qty description r8, r9, r18, r19 4 100k? 5% resistors (0805) r10Cr17 8 1k? 1% resistors (0805) tp4Ctp8 5 black test points tp9, tp10, tp13, tp16, tp17, tp22 6 white test points tp11, tp12, tp14, tp15, tp18Ctp21 8 yellow test points tp23Ctp26 4 red test points u1 1 high-speed, open-drain capable logic-level translator (8 wlp) maxim max14591ewa+ u2 1 high-speed, open-drain capable logic-level translator (8 tdfn-ep*) maxim max14591eta+ u3 1 low-noise ldo regulator with pin-selectable output voltage maxim max8902aata+ designation qty description u4 1 low-frequency, spread- spectrum econoscillator maxim ds1090u-16+ u5 1 low-frequency, spread- spectrum econoscillator maxim ds1090u-1+ u6, u7 2 low-noise ldo regulators with resistor-selectable output voltage maxim max8902bata+ u8, u10 2 tiny logic ultra-high-speed dual inverters fairchild nc7wz04p6x u9, u11 2 tiny logic ultra-high-speed dual buffers fairchild nc7wz07p6x 17 shunts 1 pcb: max14591 evkit supplier phone website hirose electric co., ltd. www.hirose-connectors.com murata americas 800-241-6574 www.murataamericas.com stanley electric co., ltd. www.stanley-components.com www.maximintegrated.com evaluates: max14591 max14591 evaluation kit maxim integrated 6 figure 1. max14591 ev kit schematic f mc s cem~bgp~r dk f mc vko~bgp~r dk vko~bgq~r dk hnnubbp~dws hnnukp~dws vko~bgp~r dk hnnukp sr~rdk hnnubbq~dws cqhud~r dk vko~bgq~r dk hnnukq~dws hnnukq hnnubbq hnnukp hnnubbp hnnubbp s cem~bgq~r dk sr s cem~bgp~r dk sr cqhud~r dk f mc f mc hnnubbq s cem~bgq~r dk f mc sr~rdk hnnukq uk ap l wp s t xp d v j tp ar s ot i opo~hnnubbp qpr ubb o mp t e bw p uk l wp s t xp d s j oo~bkj bpu i o qr i o qs qpw p ooj i opw p cp a qpppqgls q uk t ooj i ox aq pd mb vv y os o uw hnnukq t oj ons r w c r p oxot l p j tt qt i oq t oj o mp t e s opr q qpo pd s o qp s opw i oqp~hnnukp i o qp i ou ubb q pd qpp pj i opo~hnnubbp hnnubbp ons q p bpw o mp t e uk s opv ubb s ox hnnukp o mp t e s rj q r oo~bkj bv bpq o mp t e nc~bkj ubbo i opx ons p t ooj qu wo mu j ubb q t i ot ons s l wwxoqa s j br uat r oo~bkj oo~bkj q uk p as r s s opo p mt j qq r r bpt o mp t e i opr ubb p s o qq t i opp uk q q s hnnubbq i os s c r p oxot l p uj p ot e bp lwwxoqsj p tr ubbo ubb s o qs s o qu uat r r p ot e o mo p t e v pd s bq w ubbo pj hnnukp q uk pd q uk p r r q hnnubbp qpq pj ubb u wj p q pj i opt p ot e u x t p r s v x p r tu q s v w bs q x u mb vv y ovo uw s o qt uk i op q s opp bpx i ops pd bu qp s vo p ot e i o qo qv p qoj pd uat r i ov bx p ot e ubb p uk q p q qw oo~bkj ubbo qpx mb vv y ovo uw t p ooj qpu ts hnnubbq p u p ubbo q s rj p t po u u u s o mp t e bpr p r nc~bkj bpv o mp t e p nc~bkj r nc~bkj r s p q tx t tw q p p q p q i opo p w t v i or p i o qq q q p s ou s ov s ow s os p p q s t pp q v w t u u t v bpp p ot e bpo omop t e t p hnnukq r s s opu nc~bkj uk i opq i opv s opq bps uat r qs s pj pd s ops pd qps pj pd s o qo s opx q qpt pd pj pj pd qpv tq o mp t e r i oqp~hnnukp t q qx p ooj q s opt mb vv y os o uw p i o qt q p r st uat r q p s o qr ubbo w l wwxoqa s j tv uat r ubb qr u o mo p t e bt q p ip p ooj o mp t e u uat r s r p q r q p f mc hnubbq hnubbp ubb ns r hnukq hnukp uk hm f mc hnubbq hnubbp ubb ns r hnukq hnukp uk i bp i bo ip io qr ds nt s ubb f mc s r p q do nt s axo ea onj fr dm f mc hm f mc hc cj cl uat r hm hm q p px f mc ubb qx r q p r q p s r p q s r p q hm q p px f mc ubb qx hm r q p i bp i bo ip io qr ds nt s ubb f mc hm hm q p px f mc ubb qx hm hm hm hm hm hm hm hm hm hm q p px f mc ubb qx hm do nt s axo ea onj fr dm f mc hm nt s r r dka r dk do nt s axo dm f mc hm hm hm hm hm www.maximintegrated.com evaluates: max14591 max14591 evaluation kit maxim integrated 7 figure 2. max14591 ev kit component placement guide 1 www.maximintegrated.com evaluates: max14591 max14591 evaluation kit maxim integrated 8 figure 3. max14591 ev kit layoutcomponent side 1 www.maximintegrated.com evaluates: max14591 max14591 evaluation kit maxim integrated 9 figure 4. max14591 ev kit layoutsolder side 1 www.maximintegrated.com evaluates: max14591 max14591 evaluation kit maxim integrated 10 #denotes rohs compliant. part type MAX14591EVKIT# ev kit ordering information www.maximintegrated.com evaluates: max14591 max14591 evaluation kit ? 2013 maxim integrated products, inc. 11 revision number revision date description pages changed 0 10/13 initial release revision history maxim integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim integrated product. no circuit patent licenses are implied. maxim integrated reserves the right to change the circuitry and specifcations without notice at any time. maxim integrated and the maxim integrated logo are trademarks of maxim integrated products, inc. evaluates: max14591 max14591 evaluation kit for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxim integrateds website at www.maximintegrated.com. |
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