NCV8855BMNR2GEVB Evaluation Board User`s Manual
Contents
1. Fi iota Timeba e Trager Uc EE MOrrri l SEW E DU Vid D00 km 50 Gis pos na IT BOY ES 11074 Mi UAE OTD pe 110 my Xi 44898225 IGX 18482 HI l D E 12 86 Bing Tigger LeCroy a ion Trigger Figure 8 High Side Switch Turn On Figure 9 High Side Switch Turn Off Miz DJ TBBU us One SZ BI VOOBuS T http onsemi com 6 NCV8855BMNR2GEVB SCHEMATIC LLNOA xi Col 09 Sha lt te Ybl Ee LOJ 400 FOI uiu 4Sv 8 FW vyr 4 v c viii var Ozdl Gedi Sdt SOW J9ONPZGLN C vO LAAJ L Hnzz LI Mvdd SOW OL 190NvZGlN C zia eo uec H HMO i249 I LI SSH DO LA H LA lt 9d L 40 SL HAH SUL LAO JC LEAD jnzv 9 VLNOA Mvda SOW h90d0Z0_LN Gidi dl cOG I z CdL Si KE CG CG ON iva QNOd SS88AON LA H O Wa O 0 stu kdl N3dO ZER LIu 93eTndodun wyo 0 UITA 8TN ejerndod uor3do INAS UJTA sqaed NA 104 OH hag NZ L J ts N3 OC N A NA SOX MA ZdINOOD VIZA 20445 EH d4018v GS88AON en VN Jnoee N3dO lt N3dO CSdWS sio T izou Szzou OELLOZYSHAN Ld 3 vid ZLNOA 12 01 ztdNu an p o LAGAJ e1sg L cI Ol AS Wel AM N A 944 EX i LLdL g LOH OldL N 5 Na oct eat Hea Andy N A 89 QH LI jas TOG I ALL S g4 M edu JNO E LO H rd ELNOA JI eo Mvda SOM D ZL N90dO0ZaLN SE Sur Tu cD jer NIA 4n2v 0 wos mer vO Le T vr Cc L LNOA e KUNOA2. POST POST POST POST POST POST T POINT T POINT T POINT T POINT T POINT T POINT T POINT T POINT T POINT T POINT T POINT Toler ance 5 N A N A N A N A N A N A N A N A N A N A N A N A N A N A N A N A N A PCB Foot print NCV8855BMNR2GEVB Part Description RES 0 0 OHM 1 10W 5 0603 SMD CONN HEADER 36POS 100 VERT GOLD CONN HEADER 36POS 100 VERT GOLD CONN HEADER 36POS 100 VERT GOLD CONN HEADER 36POS 100 VERT GOLD CONN HEADER 36POS 100 VERT GOLD CONN HEADER 36POS 100 VERT GOLD TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L TERM SOLDER TURRET 219 109 L Vishay Dale Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Mill Max Manufacturing Corp Mill Max Manufacturing Corp Mill Max Manufacturing Corp Mill Max Manufacturing Corp Mill Max Manufacturing Corp Mill Max Manufacturing Corp Mill Max Manufacturin
3. 29 KH Mane CLK1 OSC AT RAMP1 180 come 5 SCP SCP CLK2 AVI DRV VPP RAMP2 out of phase BV IC HS EN cr f UVLO Main Logic Fault HOT FLG TWARN1 Control 6 LDO EN 8 TWARN2 1 TON Int rails VIE ISNS1 and ISNS2 VOUTI e TSD2 NE k 2 OVBATT LIMIT LIMIT go ISNS2 VREF V REF VOUT3 as gh LA GI gt 33 MA 62 JEJ qa VOUT4 mi LR T FB2 E beb VV 38 des A 34 i AN Ea SC SCP SCP SZ 70 VREF TO 70 VREF VBATT on EN CU Control 1d lt p Current Vneg Vhigh Charge HS OUT HS_S Limit clamp clamp Pump AGND V PGND UZ Figure 3 Application Diagram http onsemi com 4 VOUT2 NCV8855BMNR2GEVB TEST PROCEDURE Eguipment Needed Power Supplies 1 High Power 1 3 Logic Level Digital Volt Meter Digital Ampere Meter Function Generator optional Set up 1 Remove jumpers from Vout 1 Vout 2 Vout 3 and Vout 4 voltage select jumpers 2 Set the ISNS14 and ISNS24 jumpers to the middle positions VBATT 3 Set the high power supply to 13 2 V and a current limit of at least 1 5 A 4 Connect VBATT to the positive end of the power supply and the adjacent GND to the negative end of the power supply 5 The DC current on VBATT should be around 6 uA Switcher Test 6 Set one of the logic level power supplies to a voltage between 2 0 V and 5 5 V
4. 7 Connect SYS EN to the positive end of the power supply and a GND pin to the negative end of the power supply 8 Switcher 1 and 2 will turn on Switcher 2 includes a minimum load of 340 Q to ensure continuous conduction mode switching The DC current on VBATT should be around 37 mA 9 The Vout1 and Vout2 should be around 3 3 V Synchronize the Switchers 10 Set the function generator to a square wave with logic low 0 0 0 8 V and logic high 2 0 5 5 V with frequency 190 255 kHZ 10 Connect the positive end of the function generator to the SYNC and the negative end to GND 11 VSW1 will synchronize to the rising edge and VSW2 will synchronize to the negative edge of the Square wave Changing the Switcher Output Voltage 12 Remove the SYS_EN voltage 13 Connect a jumper in the Vout1 to change the Vout1 voltage or Vout2 to change the Vout2 voltage areas between the middle pin labeled 3 3 V and the pin labeled 5 V to change the output 5 V or the pin labeled 8 V to change the output voltage 14 Reapply the SYS EN voltage 15 The output should now be around the set voltage The current consumption from VBATT will increase if the output voltage is increased LDO Test 16 With the SYS EN connected to a power supply connect the LDO_EN pin to a power supply in the same voltage range in a similar fashion 17 Vout3 should be around 1 2 V and Vout 4 should be around 5 V Changing the LDO Output Voltage 18 Remove the LD
5. er L AG MIZAR cdid zar E MOSL dUuL CHA GLAD dud GAD 4c 0L 0dH 496 l V4H 49L adH Figure 10 Evaluation Board Schematic lonsemi com http Table 3 BILL OF MATERIALS Refer ence CF21 CF22 CV11 CV12 CV21 CV22 O E C11 d N C18 C19 C2 C EE C10 C21 3 O EE 8 C12 22nF 22nF 1nF 1nF 3 3nF 2 2nF 0 47uF 0 47uF 0 47uF 0 47uF 0 47uF 0 47uF O 1uF O 1uF O 1uF O 1uF 47uF 47uF 330uF ance PCB Foot print 603 603 603 603 603 603 805 805 805 805 805 805 603 603 603 603 UD 6 3x 5 8 UD 6 3x 5 8 UD 8x10 NCV8855BMNR2GEVB Part Description CAP CER 22000PF 50V X7R 0603 CAP CER 22000PF 50V X7R 0603 CAP CER 1000PF 50V X7R 0603 CAP CER 1000PF 50V X7R 0603 CAP CER 3300PF SOV 10 X7R 0603 CAP CER 2200PF SOV 10 X7R 0603 CAP CER 47UF 50V X7R 0805 CAP CER 47UF 50V X7R 0805 CAP CER 47UF 50V X7R 0805 CAP CER 47UF 50V X7R 0805 CAP CER 47UF SOV X7R 0805 CAP CER 47UF 50V X7R 0805 CAP CER 1UF 50V X7R 0603 CAP CER 1UF 50V X7R 0603 CAP CER 1UF 50V X7R 0603 CAP CER 1UF 50V X7R 0603 CAP 47UF 10V Nichicon UUD1A470MCL1 ELECT UD SMD GS CAP 47UF 10V Nichicon UUD1A470MCL1 ELECT UD SMD GS CAP 330UF 10V Nichicon UUD1A331MNL1 ELECT UD SMD GS Murata Electronics North America Murata
6. early warning of impending thermal shutdown HS EN Enable pin for the high side load switch A logic high on this pin will enable the HSS If this pin is left floating an intern al pull down keeps the HSS disabled LDO EN Enable pin for both LDO controllers A logic high on this pin will enable both LDO controllers If this pin is left floating an internal pull down keeps the LDOs disabled SYS EN Main enable pin for the IC A logic high on this pin will enable the part Leaving this pin floating or driving it to ground will place the IC in shutdown mode SYNC Synchronization pin Use this pin to synchronize the internal oscillator to an external clock Common DC return Table 2 ABSOLUTE MAXIMUM RATINGS Voltages with Respect to GND DC Supply Voltage VBATT 0 3 to 30 Junction Temperature NCV8855 40 to 150 Ambient Temperature Evaluation board 40 to 105 Stresses exceeding Maximum Ratings may damage the device Maximum Ratings are stress ratings only Functional operation above the Recommended Operating Conditions is not implied Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability http onsemi com 2 NCV8855BMNR2GEVB JUMPER EKPLANATION HLEN LDO EM SYS EN OCX X me RS2 NCV885X Dema Board Rey 2 August 2008 Figure 2 Jumper Groups Cyan VOUT3 LDO1 output voltage selection With no jumper VOUT3 is 1 2 V With a jumper between the middle pin
7. hold SCILLC and its officers employees subsidiaries affiliates and distributors harmless against all claims costs damages and expenses and reasonable attorney fees arising out of directly or indirectly any claim of personal injury or death associated with such unintended or unauthorized use even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part SCILLC is an Equal Opportunity Affirmative Action Employer This literature is subject to all applicable copyright laws and is not for resale in any manner PUBLICATION ORDERING INFORMATION LITERATURE FULFILLMENT N American Technical Support 800 282 9855 Toll Free ON Semiconductor Website www onsemi com Literature Distribution Center for ON Semiconductor USA Canada P O Box 5163 Denver Colorado 80217 USA Europe Middle East and Africa Technical Support Order Literature http www onsemi com orderlit Phone 303 675 2175 or 800 344 3860 Toll Free USA Canada Phone 421 33 790 2910 S Fax 303 675 2176 or 800 344 3867 Toll Free USA Canada Japan Customer Focus Center For additional information please contact your local Email orderlit onsemi com Phone 81 3 5817 1050 Sales Representative EVBUM2120 D
8. 10W 1 0603 SMD 603 RES 10 0K OHM 1 10W 1 0603 SMD RS2 150m CC1512F NO YES EE RV11 15 0k esch Vishay Dale CRCWO60315K0 YES YES FKEA RV12 15 0k Vishay Dale CRCWO60315K0 YES YES FKEA 10 0k esch CRCWO60310K0 YES YES FKEA Vishay Dale H16 10 0k esch Vishay Dale CRCWO60310K0 YES YES FKEA PCB Substi Refer Toler Foot Manufacturer s tution ence ance print Part Description Part Number Allowed RFO2 3 24k 1 603 RES 3 24K OHM Vishay Dale CRCWO6O33K24 1 10W 1 0603 FKEA SMD RFO3 10 2k 1 603 RES 10 2K OHM Vishay Dale CRCW060310K2 YES YES 1 10W 1 0603 FKEA SMD RF 11 10 2k 1 603 RES 10 2K OHM Vishay Dale CRCW060310K2 YES YES 1 10W 1 0603 FKEA SMD RF12 10 2k 1 603 RES 10 2K OHM Vishay Dale CRCW060310K2 YES YES 1 10W 1 0603 FKEA SMD RFO4 2 00k 1 603 RES 2 00K OHM Vishay Dale CRCWO6032K00 YES YES 1 10W 196 0603 FKEA SMD RF13 5 11k 1 603 RES 2 00K OHM Vishay Dale CRCWO6032K00 YES YES 1 10W 196 0603 FKEA SMD RF14 10 5k 196 603 RES 10 5K OHM Vishay Dale CRCWO60310K5 YES YES 1 10W 196 0603 FKEA SMD RF21 10 0 196 603 RES 10 0 OHM Vishay Dale CRCWOGO310RO YES YES 1 10W 1 0603 FKEA SMD RF22 10 0 1 603 RES 10 0 OHM Vishay Dale CRCWOGO310RO YES YES 1 10W 1 0603 FKEA SMD lall dil http onsemi com 11 Table 3 BILL OF MATERIALS Refer ence R18 TP1 TP7 TP8 TP11 TP15 d d U co TP2 TP3 TP4 EPS TP6 TP10 TP12 TP13 TP14 TP16 TP17
9. Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America Murata Electronics North America http onsemi com 8 Manufacturer s Part Number GCM188R71H22 3KA37 GCM188R71H22 3KA37 GCM188R71H10 2KA37 GCM188R71H10 2KA37 GRM188R71H33 2KA01D GRM188R71H22 2KA01D GRM21BR71H47 4KA88L GRM21BR71H47 4KA88L GRM21BR71H47 4KA88L GRM21BR71H47 4KA88L GRM21BR71H47 4KA88L GRM21BR71H47 4KA88L GCM188R71H10 4KA57D GCM188R71H10 4KA57D GCM188R71H10 4KA57D GCM188R71H10 4KA57D Substi tution Allowed YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES NO NO NO YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES Table 3 BILL OF MATERIALS Refer ence C15 C20 E JB1 JAT JB2 JA2 JB4 JA J5 c O c c c J10 J15 J16 J E 330uF 1500uF MBRS42 01T3G JUM
10. NCV8855BMNR2GEVB Quad Output Automotive System Power Supply IC with Integrated High Side 2 A Switch Evaluation Board User s Manual Introduction The NCV885x is a multiple output controller regulator IC with an integrated high side load switch The NCV885x will address automotive radio system and instrument cluster power supply requirements In addition to the high side load switch the NCV885x comprise a switch mode power supply SMPS buck controller a 2 5 A SMPS buck regulator and two low dropout linear regulator controllers LDO ON Semiconductor http onsemi com EVAL BOARD USER S MANUAL The NCV885x is intended to supply power to various loads such as a tuner CD logic audio processor and CD tape control within a car radio The high side switch can be used for a CD tape mechanism or switching an electrically powered antenna or display unit In an instrument cluster application the NCV885x can be used to power graphics display flash memory and CAN transceivers In addition the high side switch can be used to limit power to a TFT display during a battery overvoltage condition 11V8A 46 1 D 5 b D Viele NI 001 NT SH Figure 1 NCV8855 Evaluation Board Semiconductor Components Industries LLC 2012 May 2012 Rev 1 Publication Order Number EVBUM2120 D NCV8855BMNR2GEVB Table 1 EVALUATION BOARD TERMINAL DESCRIPTIONS BL OMNEM ger HOT FLG Thermal warning indicator Provides an
11. O_EN Voltage optionally the SYS_EN voltage as well 19 Add a jumper between the middle pin and the desired output voltage in the area around the respective outputs to change the voltage Note Vout4 has a pin that may appear to be labeled 3 5 V due to overlapping a via Actually this sets the output voltage to 8 5 V High Side Switch Test 20 With a SYS_EN powered as above measure the voltage on HS S with respect to GND This should be around 0 V 21 Connect the HS S pin to a power supply in the same voltage range and in a similar fashion to the SYS_EN voltage 22 Measure the voltage on HS_S with respect to GND This should be around VBATT http onsemi com 5 NCV8855BMNR2GEVB TYPICAL WAVEFORMS Fi World VOLI Weu n in l 100 pain Nona AU SUMS S10 Gels be Fotzteg 200 I HORN V yisi Bic 9n amp AX L LITE Mis Sn Gap 200 we Xi 31ng Ip 20417 M f iron Xiz APRs Tuc 18533 RHE ey sami yiydi 23846 PI LeCroy o Trigger Figure 4 VOUT1 5 V and VOUT2 3 3 V start up Figure 5 VOUTA 5 V and VOUT3 1 2 V start up with 340 O load on both with no load gbasg 5 75 pra Trio de 2 00 yardi f St yv dot H E j L ODER TEC T DD Fort 7 0420 Mis Si A 16 0108 vs Ai M v Mis 5 ns A 16 0108 ps Xi 1698 pS IQu 45 5E kHz Brako 1608s qax 49 5E kHz d rp Adamo 30241 DN aao Boke P Figure 6 VOUT1 5 V and VSW1 4 A load Figure 7 VOUT2 3 3 V and VSW2 2 A load
12. PER JUMPER JUMPER JUMPER JUMPER JUMPER JUMPER JUMPER JUMPER JUMPER JUMPER JUMPER JUMPER JUMPER SMB Toler ance PCB Foot print UD 8x10 PM SCH SMC DI ODE 805 805 805 805 805 805 805 805 805 805 805 805 805 805 NCV8855BMNR2GEVB Part Description CAP 1500UF 50V ELECT HE RADIAL DIODE SCHOTTKY 4A 200V SMC CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN HEADER 2POS 100 VERT GOLD CONN JACK RF VERTICAL PCMNT GOLD ON Semiconductor Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp Emerson Networ
13. a jumper between the middle pin and the pin labeled 5 V VOUTI is 5 V With a jumper between the middle pin and the pin labeled 8 V VOUTI is 8 V http onsemi com 3 NCV8855BMNR2GEVB APPLICATION DIAGRAM DRV VPP K d D N DRV VPP VIN i S as pese e A I k d w m NO Eo Bandgap livir T LIMIT Y Vi Li ro YA Y pu T Vi Va i E lt BST1 VBATT Op ie 25 5 gt qe e KA y 7 C CNBATT HI o CLK1 CLK2 5 SN1 B QS TS Qp VOUT1 sr es 3 A 23 4 d e LH dl T aL ares D s i Q2 GL 1 LA C VV e o gt 21 po S lw D1 A Gei E luir VREF SE OCSET RAMP2 KEA SS1 a TRAMPI ch z TI LVaEE E KS z SW FBI ET ya
14. and the pin labeled 3 3 V VOUT3 is 3 3 V With a jumper between the middle pin and the pin labeled 2 5 V VOUT3 is 2 5 V Magenta VOUT4 LDO2 output voltage selection With no jumper VOUTA is 5 V With a jumper between the middle pin and the pin labeled 6 V VOUTA is 6 V With a jumper between the middle pin and the pin labeled 6 5 V VOUTA is 8 5 V Yellow VOUT3 LDO1 input source selection With a jumper between the middle two pins the input to VOUT3 is VBATT With a jumper between the middle pin and the pin inline with the other pin labeled VOUT2 the input to VOUTS3 is VOUT2 With a jumper between the middle pin and the pin inline with the other pin labeled VOUTI the input to VOUT3 is VOUTI The selected voltage must be at least 5 V to ensure proper function Green VOUT2 SMPS2 output voltage selection With no jumper VOUT 2 is 3 3 V With a jumper between the middle pin and the pin labeled 5 V VOUT2 is 5 V With a jumper between the middle pin and the pin labeled 8 V VOUT2 is 8 V Red VOUTA LDOJ2 input source selection With a jumper between the middle two pins the input to VOUTA is VBATT With a jumper between the middle pin and the pin labeled VOUT2 the input to VOUT4 is VOUT2 With a jumper between the middle pin and the pin labeled VOUTI the input to VOUTA is VOUTI The selected voltage must be at least 5 V to ensure proper function Blue VOUT1 SMPS1 output voltage slection With no jumper VOUTI is 3 3 V With
15. g Corp Mill Max Manufacturing Corp Mill Max Manufacturing Corp Mill Max Manufacturing Corp Mill Max Manufacturing Corp http onsemi com 12 Manufacturer s Part Number CRCW06030000 ZOEA 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 2501 2 00 44 00 00 07 0 Substi tution Allowed YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES NCV8855BMNR2GEVB Table 3 BILL OF MATERIALS PCB Toler Foot ance print T POINT N A TURRET S TURRET 219 109 L OPEN N A POST CONN HEADER 36POS 100 VERT GOLD OPEN N A POST CONN HEADER 36POS 100 VERT GOLD Part Description TERM SOLDER U1 NCV885 N A QFN406x ON 5 6 Semiconductor U2 OPEN N A 48LQFP ON Semiconductor Mill Max Manufacturing Corp Molex Waldom Electronics Corp Molex Waldom Electronics Corp http onsemi com 13 Substi tution Allowed Manufacturer s Part Number 2501 2 00 44 00 00 07 0 22 28 4363 22 28 4363 NCV8855BMNR2GEVB LAYOUT PLOTS HS EN LDO EN SYS EN wr ne OOO sn R51 RS JE dd Y Liv 1 HOVHAAX Demo Board Res 2 August 2008 rey
16. k Power Connectivity Solutions http onsemi com 9 Manufacturer s Part Number CAP 330UF 10V Nichicon WA MNL1 ELECT UD SMD I 131 3701 261 Substi tution Allowed YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES Table 3 BILL OF MATERIALS Refer ence J2 c c A Co eg eg Q1 Q2 Q3 Q4 RFA1 RFA2 RFA3 RFA4 RFB1 RFB2 RFB3 RFB4 RFO1 SMB SMB SMB 22UH 33uH NTD20P 06L NTD20P 06L NTD24N Q Oo NTD24N 4 87k 4 87k 1 96k 8 45k 1 74k 1 74k 3 16k 2 43k 3 24k Oo Toler ance N A 2096 2096 N A N A N A PCB Foot print SMB CO NN SMB CO NN SMB CO zZ Z WE PD WE PD E l MOS DP gt MOS DP MOS DP AK d i NCV8855BMNR2GEVB Part Description CONN JACK RF VERTICAL PCMNT GOLD CONN JACK RF VERTICAL PCMNT GOLD CONN JACK RF VERTICAL PCMNT GOLD INDUCTOR POWER 22UH 5 3A SMD INDUCTOR POWER 33UH 3 2A SMD MOSFET PWR P CH LOG 15A 60V DPAK MOSFET PWR P CH LOG 15A 60V DPAK Emerson Network Power Connectivity Solutions Emerson Network Power Connectivity Solutions Emerson Network Power Connectivity Solutions Wurth Electronics Inc Wurth Electronics Inc ON Semiconduct
17. l 4 14 mis NIA TIA mm Figure 13 Silk Screen Bottom Figure 14 Copper Bottom ON Semiconductor and are registered trademarks of Semiconductor Components Industries LLC SCILLC SCILLC reserves the right to make changes without further notice to any products herein SCILLC makes no warranty representation or guarantee regarding the suitability of its products for any particular purpose nor does SCILLC assume any liability arising out of the application or use of any product or circuit and specifically disclaims any and all liability including without limitation special consequential or incidental damages Typical parameters which may be provided in SCILLC data sheets and or specifications can and do vary in different applications and actual performance may vary over time All operating parameters including Typicals must be validated for each customer application by customer s technical experts SCILLC does not convey any license under its patent rights nor the rights of others SCILLC products are not designed intended or authorized for use as components in systems intended for surgical implant into the body or other applications intended to support or sustain life or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application Buyer shall indemnify and
18. or ON Semiconductor Manufacturer s Part Number 131 3701 261 131 3701 261 131 3701 261 7447709220 744770133 B Substi tution Allowed YES YES YES u u YES BE MOSFET N CH ON NTD24NO6LT4G NO YES 60V 24A DPAK Semiconductor N A MOS_DP MOSFET N CH ON NTD24NO6LT4G NO YES AK 60V 24A DPAK Semiconductor CRCWO6034K87 FKEA 196 196 196 196 196 196 196 196 Yo 603 603 603 603 603 603 603 603 603 RES 4 87K OHM 1 10W 1 0603 SMD RES 4 87K OHM 1 10W 1 0603 SMD RES 1 96K OHM 1 10W 1 0603 SMD RES 8 45K OHM 1 10W 1 0603 SMD RES 1 74K OHM 1 10W 1 0603 SMD RES 1 74K OHM 1 10W 1 0603 SMD RES 3 16K OHM 1 10W 1 0603 SMD RES 2 43K OHM 1 10W 1 0603 SMD RES 3 24K OHM 1 10W 196 0603 SMD http onsemi com CRCWO06034K87 FKEA CRCWO6031K96 FKEA CRCWO6038K45 FKEA CRCWO6031K74 FKEA CRCWO6031K74 FKEA CRCWO6033K16 FKEA CRCWO06032K43 FKEA CRCWO6033K24 FKEA YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES YES NCV8855BMNR2GEVB Table 3 BILL OF MATERIALS RS1 150m CC1512F C 196 RES 0 15 OHM Caddock CC1512FC 0 15 YES YES 0 75W 1 1512 Electronics Inc 1 FC SMD RES 0 15 OHM Caddock CC1512FC 0 15 0 75W 1 1512 Electronics Inc 1 FC SMD 603 RES 15 0K OHM 1 10W 1 0603 SMD 1 603 RES 15 0K OHM 1 10W 1 0603 SMD 603 RES 10 0K OHM 1
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