NB3x6x1xxG16QFNEVK NB3x6x1xxG16QFN OmniClock Evaluation KitManual www.onsemi.com EVAL BOARD USER’S MANUAL Devices Supported • NB3H63143G (QFN16) • NB3V63143G (QFN16) Introduction Description The NB3x6x1xxG, which is a member of the OmniClock family, is a versatile user programmable clock generator designed by ON Semiconductor with customer experience in mind. These devices are tailored to fit in to an extensive array of applications including wearable technology, smart phones, digital cameras, E−books, portable electronics, and Internet of Things. The NB3H designated parts are powered by 3.3 V and 2.5 V supplies while NB3V parts support 1.8 V operation. These devices are One Time Programmable (OTP), low power PLL based clock generators that accept fundamental mode parallel resonant crystals of up to 50 MHz or a single ended LVCMOS/LVTTL reference clock input of up to 200 MHz. The outputs can be configured as either three single ended LVCMOS/LVTTL outputs or a combination of one single ended output and one differential LVPECL/LVDS/HCSL/CML output. The generated clock output’s frequency can range between 8 kHz to 200 MHz. Other programmable parameters include internal crystal load capacitor, drive strength for LVCMOS outputs, output frequency modulation controls (type, depth, modulation rate), output phase inversion, and PLL bypass mode. The devices are fully functional between −40°C to +85°C. NB3x6x1xxG16QFNEVK is an evaluation kit offering a convenient solution for evaluating QFN16 devices. Included are one main board, a daughter board, and a USB cable. The main board and daughter board are 4 layer boards with dedicated power and GND planes. The daughter board plugs directly on to the main board using four 4−pin header connectors. These connectors route the signal, power and ground to the device on the daughter board. The two boards correctly plug into one another in only one orientation ensuring proper pin alignment. The daughter board has a 16QFN socket to test NB3x6x1xxG devices. A view of the main board with the 16QFN daughter board is shown in Figure 1 and 2. The Clock Cruiser Software is the GUI software developed to be used with this evaluation kit, and can be downloaded for free from www.onsemi.com. It allows the user to set programmable parameters and generate solutions that fit application needs. These solutions can then be programmed in to device’s OTP memory or be temporarily written into device registers for evaluation. For more information on using the GUI, refer to Clock Cruiser User Guide. Figure 1. 455 View of Main Board with 16QFN Daughter Board © Semiconductor Components Industries, LLC, 2016 January, 2016 − Rev. 1 Figure 2. Top View of Main Board with 16QFN 1 Publication Order Number: EVBUM2308/D NB3x6x1xxG16QFNEVK Figure 3. Main Board Figure 4. 16QFN Daughter Board www.onsemi.com 2 NB3x6x1xxG16QFNEVK USING THE EVALUATION KIT Setting Up for Programming Skip this section if the device has been programmed already 1. Securely connect the daughter board to the main board by lining up all four 4−pin connectors (J8, J12, J13, J21). The daughter board can only be plugged in to the main board correctly in one orientation. 2. Make sure that all SMA cables are unplugged from both boards. 3. Set main board to initial position: a. Jumpers: use shorting links to provide connection as in the table below: (pin 1 is indicated by a circle) Jumper No J26 (SEL1) J27 (SEL0) J24 (OE2) J25 (OE1) J28 (OE0) J29 (PD#) J19 Pin connection 2 and 3 2 and 3 2 and 3 2 and 3 2 and 3 OPEN 2 and 3 b. Switches: slide the switches to the position as in the table below: (ON is indicated in lettering on switch’s case) c. Rotary Switches: turn knob on all rotary switches as shown below: (the position number will be displayed in a slit on the knob) Switch No SW1 SW2 Jumper No U11 U12 U13 U14 U15 U16 Position ON ON Dial Display 1 1 1 1 1 1 4. Set daughter board to initial position: a. Jumpers: use shorting links to provide connection as in the table below: (pin 1 is indicated by a circle) Jumper No J31 (SEL1) J30 (SEL0) J29 (OE2) J28 (OE1) J27 (OE0) J26 (PD#) Shorting Link Position OPEN OPEN OPEN OPEN OPEN OPEN Programming the Device : OTP or Temporary Register b. Switches: slide the switches to the position as in the table below: (ON is indicated in lettering on switch’s case) Switch No SW1 SW2 SW3 Position ON ON ON Skip this section if the device has been programmed already 7. Run the Clock Cruiser GUI software by clicking on the desktop short cut or from the start menu. A blue LED (D9) will light up when a connection is established. This will periodically blink as activity is conducted. 8. Follow the Clock Cruiser User Guide for detailed instruction on navigating through the program. 9. In the Device Programming Screen, a table indicates the summary of configurations that were selected. Verify that the Hardware Connected indicator is green and that there is no error in the log. Program the device permanently by selecting [Program OTP Memory]. To write to device registers, click [Write to Registers]. In this case, when the evaluation kit is powered down (i.e. when the USB cable is unplugged) the register memory will be reset. c. Make sure that the Crystal is in its holder. d. Place NB3H63143G in the DUT socket U2. For pin 1 alignment refer to Figure 2 Powering Up 5. Download and install Clock Cruiser GUI Software to a computer that meets or exceeds minimum requirements found on Clock Cruiser User Guide. 6. Connect the evaluation kit to an USB port using the included USB cable. An LED next to the USB connector will glow red, indicating +5 V supply is available to the module. www.onsemi.com 3 NB3x6x1xxG16QFNEVK Powering up the DUT VDDOs are less than or equal to VDD. The following table shows which on−board LDO voltage is selected depending on the switch position (see table): 10. Set VDD and then VDDO for each output by using the four rotary switches (U11, U12, U13, U14) to match device configuration. Make sure that Voltage for Each Switch Position Rotary Switch Line 1 U11 VDD +3.3 V U12 VDDO0 U13 VDDO1 U14 VDDO2 2 3 4 +2.5 V +1.8 V external source VDD Connect Input Clock Source Interfacing the Output to Equipment 11. Depending on the programmed configuration, select one of the following input clock sources: a. Crystal: The evaluation kit comes equipped with a 25 MHz fundamental crystal on the daughter board. If a different frequency crystal (accepts 3 M to 50 MHz) is to be used, place this crystal in its holder. b. External Reference Clock: To use an external reference clock (3 M to 200 MHz), connect the clock to J31 SMA connector on the main board. 13. To monitor the output from the main board using test equipment such as an oscilloscope, either use SMA connectors or jumpers: To use the jumpers (J33, J34, J35), use a high−z probe to monitor the outputs with the live connected to jumper pin marked 0, and the other pin connected to ground. This can be used for monitoring all output types. To use the SMA connectors (J7, J9, J23), use high−z termination on the scope and the outputs can be monitored for all types. Set Output Termination 12. The outputs from DUT are routed to three SMA connectors on the main board (J7, J9, J23) to provide CLK0, CLK1, and CLK2 respectively. By turning the rotary switches U15 and U16, the board will automatically terminate the programmed output level for CLK0 and CLK1, according to this table: Rotary Switch Position U15 output for CLK0 U16 output for CLK1 1 LVCMOS LVCMOS 2 HCSL HCSL 3 LVPECL LVPECL 4 CML CML 5 LVDS LVDS Controlling the Device 14. Use control pins OE[2:0] (J24, J25, J28) to enable or disable each output individually. The logic state of each signal corresponds to the LEDs (D4, D5,D8) on the main board: the LED is lit when ‘high’ and off when ‘low’. 15. The pins SEL[1:0] (J26, J27) are used to select one of the four programmed solutions in the device’s OTP memory. The logic state of each signal corresponds to the LEDs (D6, D7) on the main board: the LED is lit when ‘high’ and off when ‘low’. 16. PD# (J29 on main board, J26 on daughter board) is used to power down the device. The logic state of the signal corresponds to the LED (D9) on the main board: the LED is lit when ‘high’ and off when ‘low’. 17. If the configuration written into the temporary register must to be changed, re−initialize the hardware setup by returning to step 1 of this manual. Then, either return to the previous screen on the GUI with the [back] button or restarting the program. Note that even when the part’s OTP memory has been programmed, device’s registers can be used to write other solutions for evaluation. Since CLK2 output only supports LVCMOS, the termination is fixed. www.onsemi.com 4 NB3x6x1xxG16QFNEVK Remember: c. All SMA cables, if connected, are detached from equipment 18. Always make sure that while communicating between the GUI and the device: On the main board a. Switches SW1 and SW2 are in ON position b. Rotary switches U15 and U16 are in position ‘1’ On the daughter board d. Switches SW1, SW2 and SW3 are set to ON position e. All SMA cables, if connected, are detached from equipment APPENDIX Unpopulated Boards Figure 5. Main Board Top View Figure 7. QFN16 Daughter Board Top View Figure 6. Main Board Bottom View Figure 8. QFN16 Daughter Board Bottom View www.onsemi.com 5 NB3x6x1xxG16QFNEVK OUTPUT TERMINATION HCSL CML LVPECL LVDS www.onsemi.com 6 1 TP31_NP R135_NP 2 0E 1 2 1 1 Testdata 1 R31 82E 1% 4B2 4B1 3B2 3B1 4B2 4B1 3B2 3B1 2B2 2B1 1B2 1B1 U1 1 USB_5V ADG3257BRQZ 50E R36 2 2 2 ADG3257BRQZ 3V3_FT thick trace OTP_WR NTS2101P/ON thick trace R50 50K 2 13 14 10 11 6 5 3 2 TP30_NP GUI_SEL_XIN 0E M1 1 2 sclk sdata 1 TP32_NP GUI_SEL_XIN 13 14 10 2B2 2B1 1 2 FUNCTION MODE. DEVICE, WHEN DE−SELECTED, DEVICE RESUMES THE SELECTED, ALL FTDI CONTOL PINS ARE CONNECTED TO DEVICE WITH PROGRAMMING SIGNALS FROM THE GUI. WHEN 2 2 SW1 PD#_PRE Q11 NTA4153NT1G R23 2.2K R66 1K NTS2101P/ON SMDHeader 2−pin 2 2 1% thick trace 1 M1 Y1 SMA Jack, End Launch Y2 2 4 SMD XTAL_NP C43 Pin5 1 SEL00 1 1 1 1 R84 0E SEL0 3 2 1 J27 SEL1 3 2 1 J26 3 2 1 J24 OE2 3 2 1 J25 OE1 3 2 1 J28 OE0 PD# 3 2 1 2 2 1 1 OE0 2 10K R81 10K R80 10K R79 1 VDD 1 VDD 1 VDD R90 1 1 Pin6 NTA4153NT1G R87 0E 2 OE1 R104 1K R137 22K 1 M5 1 M6 1 M7 1 M15 1 M16 2 1 2 1 5 3 2 1 2 R148 8.2K R146 3.3K 2 R138 22K 1 6 2 − + USB_5V R86 0E − U17B 7 16 15 7 6 5 3 2 1 2 R92 Q15 NTA4153NT1G Pin16 1 D6 LG L29K−F2J1−24−Z R98 NP_1K 1 SEL0 RED R142 1K R140 1K U17A LED1 33K R141 1K R144 2.5V/3.3V GREEN VDDO_0 2 1 2V5 VDDO_0_EXT VDDO_0 1 TP2_NP VDDO_0 U12 S−2151 1 TP7_NP 0E 2 1 R136 10K TP27 10K R89 1 1 2 1 J2 CLK1 S1 D1 0E_NP VDDO_1 1 2 2P5 3 50C02CH D2 R149 0E 2 J17 VDD 1 4 2 2 0E R9 1 1 0E R7 2 1 2 1 R150 10K R145 33K R143 1K VDDO_2 VDDO_2 1 TP6_NP VDDO_2 CLK0_SMA 0E R5 1 0E R53 1 0E R100 VDD EXT Q17 NTA4153NT1G 2 GND_VDDO R11 50E_NP C3 J32 VDD 1.8V 3 2 1 2.5V VDD 2 2P C4 GND_VDDO 1 4pF_NP 4pF_NP 0E C1 4pF_NP 1P R10 CLK1_SMA 0.01uF_NP_Mount Resistor_0E VDDO_2_EXT 1 TP9_NP U14 S−2151 2 1 2 1 2 0.01uF_NP_Mount Resistor_0E 50E_NP C2 GND_VDDO 2 1 CLK1 R32 0E_NP 2P5 1V8 VDDO_2_EXT R101 0E 1 R6 1 2 1 3 2 1 Pin10_I/P D9 LB Q39G−L2N2−35−1 R102 NP_1K R117 0E 2 R116 0E 2 PD#_PRE 1 PD# 2 1 VDD R125 1K 50C02CH Q7 S2 Q9B VDDO_1 1 TP5_NP NTLJD3115P 6 2 VDDO_1 2 1 3V3_FT R45 0E_NP VDDO_1_EXT 1 TP8_NP U13 S−2151 2 1 3 2 1 2 VDD J30 Q16 NTA4153NT1G R91 0E 1 Pin13_I/P R46 0E R44 0E_NP 1 Out1 CLK0 R29 0E_NP 1 1 Out0 1 R28 0E 1 1 R76 10K VDD VDD TP17 Note: Use_ 0.01uF_C2 and C3_for_AC_coupling_only CLK0 R8 0E_NP InPin10 R13 0E_NP 1 R12 0E 2 1 3 2 1 Pin9_I/P 2 VDD D7 LG L29K−F2J1−24−Z 1 2 2 2 2 M13 2 VDD 13 M10 10 M9 2 R58 InPin9 1 VDD 10K 9 R99 NP_1K R147 Q9A 1 Q6 1 1 TP4 2P5 1V8 VDDO_1_EXT 2 2 1 VDD R124 1K 3V3_FT GND_VDDO InPin13 EPAD must be part of GND_VDDO plane. VDD 1 2 CLK2 CLK1 CLK0 NB3H63143G_NP M14 2P5 1V8 VDDO_0_EXT 1 SEL1 R123 1K 1 VDD SEL0 SEL1 OE2 OE1 OE0 PD# XOUT InPin9 R85 0E 2 2 1 VDD XIN U2 U11 S−2151 3V3_FT 1.8V 1 VDD NCS2220A USB_5V + Xin XOUT Q14 NTA4153NT1G R94 R139 47K R88 0E Pin15 SEL0 SEL1 OE2 OE1 OE0 PD# D4 LG L29K−F2J1−24−Z 0E J16 1 2 R97 NP_1K R93 1 Q13 NTA4153NT1G Pin7 OE2 1 VDD XOUT Xin R122 1K 3V3_FT 1 M3 D5 LG L29K−F2J1−24−Z R96 NP_1K R39 0E R38 0E_NP 1 SEL0 R43 0E R42 0E_NP 1 SEL1 R14 0E R18 0E_NP 1 OE2 R15 0E R19 0E_NP 1 OE1 R16 0E SMDHeader 2−pin LED when ON = Input High LED when OFF = Input Low R24 0E R26 0E_NP 1 PD# R17 0E_NP 1 OE0 2 2 R27 0E_NP M1 0E 1 2 1 VDD 2 2 2 2 2 2 2 2 2 2 Q12 2 1 J15 Minimum trace 2 1 Minimum trace SMDHeader 2−pin 1 2 PD#_PRE 3V3_FT D8 LG L29K−F2J1−24−Z Pin16 Pin15 2 2 2 R95 NP_1K Pin7 Pin6 Pin5 0E 1 2 1 VDD R103 1K 3V3_FT SEL00 1 SEL11 VDD TP22 SEL11 VDD TP23 GUI_OE2 VDD TP24 GUI_OE1 VDD TP25 GUI_OE0 VDD TP26 VDD J29 one pin on or near crystal. Overlap 2−pin jumper and resistor. Place jumper 1 J20 SMDHeader 2−pin R51 0E_NP 2 R47 0E_NP C25 2 1 18pF_NP 18pF_NP Overlay SMT pads 1, 2 on SMD pads 1 and 3. SMT XTAL_25MHz 1 CLK0 1 CLK1 1% 0E_NP1% 0E_NP J36 2 R133 SW2 R134 1 NTS2101P/ON 1 1 2 2 1 1 2 SDA01H1SBD 1 J37 SMDHeader 2−pin Clkin SDA01H1SBD VDD 12 9 7 4 12 9 7 4 R77 2 82E Xin 1 1 M3 1 4A 3A 2A 1A 4A 3A 2A 1A R37 50K M2 10K R61 10K R22 ”GUI_SEL_XIN” CONTROLS THE DEMUX TO CONNECT THE Close to DUT pin1 and connector pin 1 (M1). 50E R40 1 TP29_NP GUI_PD# sclk sdata R132_NP 2 OTP_WR Out1 Out0 GUI_SEL_XIN 6 Testclk 11 5 Extclk 1B2 S S 16 BE# 16 BE# 1B1 15 15 3 GND GND 1 2 VCC VCC 1 1 8 8 5 2 3 2 3 1 Testclk 1 3 2 VDDO_1 3V3 2V5 1V8 VDD_EXT A 3 1 2 3 4 1 2 3 4 5 2 M12 12 GND U3 VDD VDD 17 VDDO_0 M8 M11 8 11 14 VDDO_0 VDDO_1 VDDO_2 VDD REFERENCE 2 3 3 2 4 M4 A 1 2 3 4 1 2 3 4 3 2 No other signals should be close to Xtal and Xin/ XOUT. No GND R52 plane near Xtal and Xin/ XOUT. 2 1 J31 50E_NP R49 0E 2 1 Extclk R131 0E 2 1 Clkin 2 1 8 4 3 1 4 A G1 EPAD 2 SML−P24MUW VDDO_2 1 2 3 4 1 2 3 4 5 2 3 2 CLKIN G2 2 1 1 2 1 R129 84E_NP R130 125E_NP 1 2 1 2 J35 J23 2 1 7 IN_C1 IN_C2 U16 IN_C1 IN_C2 U15 A B C D E A B C D E REF 4 HEADER J13 1 2 3 4 M1 M2 M3 M4 of NB3H63143G part footprint J21 4 HEADER J8 4 HEADER GND_VDDO R1 50E HCSL 2 1B 1 GND_VDDO 1 1A 2 1 2A 1 LVPECL R20 50E HCSL M12 M11 M10 M9 4 3 2 1 REF 4 HEADER J12 Mount 50E for LVPECL (VTT) 2 R30 R25 84E 125E LVPECL 2B 1 VDDO_1 NP for LVPECL (VTT) 2 1 Mount 50E for R4 R3 NP for HCSL 84E 125E LVPECL (VTT) LVPECL (VTT) LVPECL VDDO_1 CML REF 2 2 LVDS Note: Default value of R4,R3,R25,R30 for VDDO_1=3.3V Connectors to mount daughtercards around the footprint GND_VDDO 1A 1B 1C 1D 1E No Connection/ LVCMOS 2 2A HCSL 3 2B LVPECL 4 2C CML 5 2D LVDS 6 2E No Connection/ LVCMOS 2 3 4 5 6 SMA Jack, End Launch REF REF SMA Jack, End Launch SS−10−15SP−LE 1 7 SS−10−15SP−LE 1P CLK1_SMA REF SMA Jack, End Launch SMDHeader 2−pin J34 CLK2 2P J7 1 J9 2 SMDHeader 2−pin J33 CLK0_SMA 1 GND_VDDO 2 1 R127 84E_NP R128 125E_NP VDDO_1 C5 2 1 2 1 2 VDDO_1 LVDS 2D 50E R62 2 1 2 LVDS 1D 1 2 1C 1 VDDO_1 R2 50E CML R59 50E smallest possible. Place U10 between CLK0 and CLK1 traces with equal length of individ ual terminations on ports 1 and 2. Place all resistors as close as possible to each connetion on U10. Keep trace lenght f rom middle headers to SMA launch SMDHeader 2−pin USB_5V 5 A 8 8 Function Mode 8 4 3 1 2 3 4 1 2 3 4 5 3 2 NC NC 4 3 2 1 M16 M15 M14 M13 7 M5 M6 M7 M8 www.onsemi.com 2 Figure 9. Main Board Schematic (1 of 3) 1 2 3 4 Prog. Mode / 2 1 R21 50E 1 2C 2 VDDO_1 0E_NP R60 CML REF NB3x6x1xxG16QFNEVK Main Board Schematic 1 R33 0E GUI_SEL_XIN GUI_SEL_XIN 1H2 1H5 1 2 R65 10K 1 Q1 R64 2 1 2 P13488CT−ND Amber Color D1 www.onsemi.com 2 1 Green Color Figure 10. Main Board Schematic (2 of 3) 2 1 10V 100nF C52 3V3_FT LG L29K−F2J1−24−Z D2 R63 0E sdata GUI_SEL_XIN MMBT2907ALT1G 3V3_FT Q18 NTA4153NT1G 1K 1 2 1K R126 1 1H4 3 2 1H3 3V3_FT 1H1 2 8 3 5 6 7 8 R72 2 DOUT DIN CLK CS OTP_WR InPin13 Testdata GUI_PD# SEL11 SEL00 Testclk GUI_OE2 GUI_OE1 U5 CAT93C56YI− GT3 GND NC2 NC1 sdata GUI_OE0 VDD VCC 10K 1 3V3_FT sclk sclk 0E 0E R107 1 3V3_FT 4 2 1 R56 10K 2 1 R55 10K R121 2 1 1 R54 10K InPin10 InPin9 1 SEL11 InPin10 InPin9 R70 2 10K 1 2.2K R82 0E 0E 2 2 R69 10K 2 R68 10K 2 2 R120 1 1 R67 10K 1 1 2 2 2 2 2 SEL00 OTP_WR InPin13 Testdata SEL11 3 SEL11 SEL00 GUI_PD# SEL00 2 0E 0E 0E R106 1 Testclk 1 R34 R35 R105 1 1 1 1 1 R115 R114 R113 R112 R111 R110 R109 R119 R118 1 1 1 1 1 1 1 1 2 2 R108 R71 10K 1 2 0E 0E 2 2 0E 0E 0E 0E 0E 0E 0E 0E 2 2 2 2 2 2 2 2 2 R74 10K R78 1 10K 1 VDD 10 1 5 11 15 25 35 47 51 61 62 63 48 52 53 54 55 57 58 59 38 39 40 41 43 44 45 46 34 33 32 30 29 28 27 26 24 23 22 21 19 18 17 16 AGND GND1 GND2 GND3 GND4 GND5 GND6 GND7 GND8 EEDATA EECLK EECS BCBUS0 BCBUS1 BCBUS2 BCBUS3 BCBUS4 BCBUS5 BCBUS6 BCBUS7 BDBUS0 BDBUS1 BDBUS2 BDBUS3 BDBUS4 BDBUS5 BDBUS6 BDBUS7 GPIOH7 GPIOH6 GPIOH5 GPIOH4 GPIOH3 GPIOH2 GPIOH1 GPIOH0 GPIOL3 GPIOL2 GPIOL1 GPIOL0 TMS TDO TDI TCK VCCIO1 VCCIO2 VCCIO3 VCCIO4 65 TEST PWREN# SUSPEND# OSCO OSCI REF RESET# DP DM VPHY VPLL VCORE1 VCORE2 VCORE3 VREGOUT VREGIN TH_PAD U4 FT2232H 13 60 36 3 2 6 14 8 7 4 9 12 37 64 49 50 20 31 42 56 2 1 12K 1% R48 Y3 12 MHz 1 3 1 2 2 1 2 1 1 30pF C6 30pF C7 100nF 4 2 USB_DP C 2 2 1 USB_DM 100nF C48 C 2 2 1 100nF C36 C44 1 C39 4.7uF 6.3V USB_RST# C42 4.7uF 6.3V 2 1 3V3_FT 3V3_FT 2 1 2 1 2 1 10K R41 100nF C50 C38 10nF 16V 1 C47 4.7uF 6.3V 2 1 100nF C37 2 100nF 2 1 1 2 1 USB_5V 3V3_FT 600 FB1 100nF C40 100nF C45 C46 2 1 2 100nF C49 2 1 600 FB2 C35 10nF 16V 1 D3 1 USB_5V L1 FB 600R/0.5A PACDN004 2 3V3_FT 2 TP18 1 1.5K R73 1 4 1 USB 5V 3 2 2 LED_RED1 USB 4 3 2 1 5 6 USB J22 NB3x6x1xxG16QFNEVK GND_F USB_5V 9 www.onsemi.com C58 1uF 10V C16 1uF 10V C18 1uF 10V C12 1uF 10V TP20 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 GND NC 4 GND EN NC GND EN IN NC OUT BEAD FB3 BEAD FB11 BEAD FB7 BEAD FB6 BEAD FB5 C59 4.7uF 10V BEAD 2 1 3V3_FT FB8 GND 4 5 C14 4.7uF 10V TP11 1 C17 4.7uF 10V 3V3_FT 2 1 1V8 2 1 3V3 TP21 1 1V8 2V5 TP3 1 TP14 1 C13 4.7uF 10V FB10 1 NC OUT TP28 GND EN IN 4 5 4 2V5 2 1 3V3 BEAD 2 3 1 NCP4688DSN33T1G, 3.3V U9 2 3 1 NCP4688DSN18T1G, 1.8V U7 2 3 U8 NCP4688DSN25T1G, 2.5V 1 5 IN OUT 2 EN 5 BEAD FB13 100nF C57 100nF C15 100nF C19 100nF C11 3 U6 NCP4688DSN33T1G, 3.3V 1 IN OUT 1 GND_VDDO GND_VDDO TP1 3V3_FT 0.1uF C60 GND_VDDO REF TP19 GND GND4 VDDO_0 0.01uF C21 0.1uF C20 NEAR DUT PIN LVDS = FLOAT/ NO SHORT CML = VDDO_1 VDDO_1 C22 REF VTT 2.2uF REF GND_VDDO LVPECL (Thevenin’s network) = GND HCSL = GND VTT thick trace REF 1 2 3 thick trace LVPECL (VTT reference) = VTT J19 VTT VTT thick trace thick trace VDDO_1 VDDO_1 VTT 1 USB_5V VDDO_2 GND3 GND Figure 11. Main Board Schematic (3 of 3) C30 0.1uF GND5 VDD 0.1uF C32 0.01uF C34 2.2uF C27 NEAR DUT PIN 0.01uF C33 NEAR DUT PIN C28 C51 0.01uF + 1 22uF C29 0E R75 600 0.01uF C26 GND6 0.01uF C54 1 22uF C8 2 + 1 2 0.01uF 0.1uF C9 VDDO_EXT 0E R57 0.1uF C56 0E R83 VDDO_EXT 0.1uF C24 NEAR DUT PIN + 1 2 C23 C55 2 22uF 600 FB12 VDD_EXT 2.2uF FB4 + + VTT1 0.1uF C10 VDDO_EXT 1 C41 22uF_NP C53 C31 22uF VDDO_EXT1 GND2 VDDO_1 0.1uF_NP VTT 600 2 FB9_NP GND1 1 2 VDD_EXT NB3x6x1xxG16QFNEVK D1−VDD Figure 12. 16QFN Daughter Board Schematic J29 J28 J27 1 2 3 1 2 3 1 2 3 1 2 3 2 0E OE0 OE1 OE2 D1−GND_Plane D1−VDD D1−GND_Plane D1−VDD D1−GND_Plane D1−VDD D1−GND_Plane PD# J7 CONN RCPT 4 D1−VDD D1−REFCLK 1 2 3 4 1 2 R71 0E_NP_0603 2 R70 0E_NP_0603 0E_NP_0603 R62 1 1 1 2 0E_NP_0603 R69 2 R68 R61 0E 2 1 J31 J30 1 1 2 3 1 2 3 XTAL SW1 SDA01H1SBD C14 C13 4.7uF 2 SEL1 D1−GND_Plane D1−VDD D1−GND_Plane SEL0 4 PD# SMD XTRL_NP D1−GND_Plane 2 Y3 1 2 C16 Y4 D1−GND_Plane 30pF_NP C11 C15 4.7uF D1−EPAD_Plane 10uF SMT XTRL_25MHz C12 30pF_NP 1 Prog./ Refclk 10uF D1−VDD 2 D1−GND_Plane D1−VDDO_0 D1−VDDO_0 D1−VDDO_2 D1−VDDO_1 FBMJ2125HS250NT9 D1−VDDO_0 1 D1−VDDO_2 J26 D1−VDDO_1 D1−SMA−GND 0.1uF C18 4 3 2 1 GND PD# XOUT XIN U1 D1−VDDO_2 10uF C17 R58 0E J6 1 NB3H63143G 16L QFN U2 CONN RCPT 4 4.7uF 2 atleast 4 SEL0 DUT − 3 1 3 SEL1 15 Close to 1 2 1 VDDO2 CONN RCPT 4 J8 2 11 1 GNDO R57 0E 2 L4 L3 C22 VDD D1−VDDO_0 CLK0 CLK1 9 10 11 12 D1−VDDO_1 SDA01H1SBD D1−CLK2 FBMJ2125HS250NT9 FBMJ2125HS250NT9 1uF_NP D1−EPAD_Plane VDDO_1 17 D1−VDDO_2 TH L6 1 CLK2 VDDO_0 VDDO1 J34 2 2 1 R51 R49 J33 2 2 Header 2−pin 1 2 D1−CLK0 D1−CLK1 2 0E_NP SW2 1 C20 10uF 0E_NP SDA01H1SBD 1 Header 2−pin 1 1 SW3 D1−VDD 1 GND D1−VDD C19 4 3 2 1 D1−GND_Plane 4.7uF Close to DUT J5 CONN RCPT 4 D1−REFCLK 1 VDD R48 R54 150E_NP 0E D1−EPAD_Plane 1 Close to DUT D1−CLK0 R55 R60 150E_NP 0E 2 2 1 2 1 2 C25 D1−EPAD_Plane SMA Jack, End Launch D1−EPAD_Plane 1 Close to DUT J12 R63 50E_NP D1−CLK1 1 2 D1−REFCLK C23 + D1−VDDO_1 VDDO_2 OE2 1 1 2 R56 84E_NP R59 125E_NP 1 2 1 2 R52 84E_NP R53 125E_NP R67 100E_NP D1−VDDO_1 1 2 1 2 D1−VDDO_1 D1−CLK2 C21 C24 C26 1 2 1 2 1 2 1 2 Header 2−pin 1 2 2 D1−SMA−GND 4pF_NP J11 Header 2−pin J37 4pF_NP VDDO0 16 5 OE0 SEL1 OE1 3 SEL0 OE0 1 14 7 OE2 4 6 OE1 2 13 8 www.onsemi.com + 0.1uF_NP_Mount_Resistor_0E 0.1uF_NP Mount_Resistor_0E 10 4pF_NP + D1−VDDO_0 J36 J10 2 1 2 2 J32 Header 2−pin D1−CLK0 J9 1 0E_NP D1−SMA−GND J35 0E_NP R72 R73 1 D1−CLK1 SMA Jack, End Launch Header 2−pin D1−SMA−GND 1 D1−CLK2 SMA Jack, End Launch NB3x6x1xxG16QFNEVK 16QFN Daughter Board Schematic SMA Jack, End Launch NB3x6x1xxG16QFNEVK BILL OF MATERIAL MAIN BOARD Sl No Reference Part PCB Footprint Manufacturer Manufacturer Part# Vendor Vendor PN 1 C2,C3 0.01 mF _Mount R0E R0402 DigiKey 541−0.0JCT− ND Vishay Dale CRCW0402000 0Z0ED RES SMD 0.0 OHM JUMPER 1/16W 2 2 C8,C31, C41,C55 22 mF C0603 DigiKey 587−2085−1− ND Taiyo Yuden AMK107BJ2 26MA−T CAP CER 22UF 4V 20% X5R 0603 4 3 C9,C20, C24,C29, C30,C32, C56,C60 0.1 mF C0402 DigiKey 587−1227−1− ND Taiyo Yuden LMK105BJ1 04KV−F CAP CER 0.1UF 10V 10% X5R 0402 8 4 C10,C21, C23,C28, C33,C34, C54 0.01 mF C0402 DigiKey 490−1312−1− ND Murata GRM155R7 1E103KA01D CAP CER 10000PF 25V 10% X7R 0402 7 5 C11,C15, C19,C36, C37,C40, C44,C45, C46,C48, C49,C50, C52,C57 100 nF C0402 DigiKey 478−1129−1− ND AVX 0402ZD104KAT2A CAP CER 0.1UF 10V 10% X5R 0402 14 6 C12,C16, C18,C58 1 mF C0402 DigiKey 490−5409−1− ND Murata GRM155R6 1A105ME15D CAP CER 1UF 10V 20% X5R 0402 4 7 C13,C14, C17,C59 4.7 mF C0402 DigiKey 490−5408−1− ND Murata GRM155R6 0J475ME87D CAP CER 4.7UF 6.3V 20% X5R 0402 4 8 C22,C26, C27 2.2 mF C0402 DigiKey 490−4518−1− ND Murata GRM155R6 0G225ME15D CAP CER 2.2UF 4V 20% X5R 0402 3 9 C35,C38 10 nF C0402 DigiKey 478−1114−1− ND AVX 0402YC103KAT2A CAP CER 10000PF 16V 10% X7R 0402 2 10 C39,C42, C47 4.7 mF C0402 DigiKey 490−5408−1− ND Murata GRM155R6 0J475ME87D CAP CER 4.7UF 6.3V 20% X5R 0402 3 11 D1 LED_amber LED_0603 DigiKey P13488CT− ND Panasonic LNJ414K82RA LED AMBER HIGH BRIGHT USS 0603 1 12 D2,D4,D5, D6,D7,D8 LED_green− LG L29K−F2J1− 24−Z LED_0603 DigiKey 475−3118−1− ND OSRAM Opto Semiconductors Inc LG L29K−F2J1− 24−Z LED SMARTLED 570NM GREEN 0603 6 13 D3 PACDN004SR SOT−143 Mouser 748−PACDN0 04SR ON Semi 14 D9 LB Q39G−L2N2 −35−1 LED_0603 DigiKey 475−2816−1− ND OSRAM Opto Semiconductors Inc LB Q39G−L2N2−35−1 LED CHIPLED BLUE 470NM 0603 SMD 1 15 FB1,FB2, FB4,FB12 600 L0402 DigiKey 490−1006−1− ND Murata BLM15AG60 1SN1D FERRITE CHIP 600 OHM 300MA 0402 4 16 FB3,FB5, FB6,FB7, FB8,FB10, FB11,FB13 BEAD L0805 DigiKey 587−1767−1− ND Taiyo Yuden FBMJ2125HS2 50NT FERRITE BEAD 25 OHM 0805 8 17 GND1, GND2, GND3, GND4, GND5, GND6 T POINT R TP_30_30 NA NA NA NA NA 6 Test Point 18 H1,H2,H3, H4,H5 .129 Hole in .240 Round Pad MH_240_1 28 NA NA NA NA NA 5 Round Pad 19 J2,J17,J19, J24,J25, J26,J27, J28,J29, J30,J32 Header 3−pin berg_1x3_ 2p54 DigiKey 3M9448−ND 3M 961103−640 4−AR CONN HEADER VERT SGL 3POS GOLD 11 20 J7,J9,J23, J31 SMA− J−P−H−ST− EM1−ND con_sma_edge DigiKey SMA− J−P−H−ST− EM1 Samtec Inc SMA− J−P−H−ST− EM1 CONN SMA JACK 50 OHM EDGE MNT 4 21 J8,J12, J13,J21 4 HEADER berg_1x4_ 2p54 DigiKey S7037−ND Sullins Connector Solutions PPPC041LFBN−RC Connector Header 4 Position 0.100” (2.54mm) Gold Through Hole 4 www.onsemi.com 11 Description Qty Notes / Remarks 1 NB3x6x1xxG16QFNEVK BILL OF MATERIAL MAIN BOARD Sl No Manufacturer Manufacturer Part# Part PCB Footprint 22 J15,J16, J20,J33, J34,J35, J36,J37 SMDHeader 2−pin berg_1x2_ 2p54 DigiKey 3M5350−ND 3M 151204−232 0−RB CONN 4POS 2MM HEADER DL STR SMD 8 23 J22 Conn, USB− B, SMT USB_A_PLUG_RA DigiKey WM17117−ND Molex 480370001 Connector Plug USB TypeA 2.0 4 Position Through Hole, Right Angle, Horizontal 1 24 LED_RED1 LED, Green LED_0603 DigiKey P11475CT− ND Panasonic LED RED TSS TYPE 0603 1 Reference Vendor Vendor PN LNJ212R82RA Description Qty 25 LED1 846−1040−1 −ND LED_SML_DUO DigiKey 846−1040−1− ND Rohm Semiconductor SML− P24MUWT8 6 LED PICOLED DUAL YWGN/RED 1010 1 26 L1 FB 600R/0.5A L0402 DigiKey 490−5258−1− ND Murata BLM18KG60 1SN1D FERRITE CHIP 600 OHM 1300MA 0603 1 27 M1,M2,M3 NTS2101P/ ON sot−323 DigiKey NTS2101PT1GOSCT−ND ON Semi NTS2101PT 1G MOSFET P−CH 8V 1.4A SOT−323 3 28 Q1 MMBT2907ALT1G sot_23 DigiKey MMBT2907ALT3GOSCT− ND ON Semi MMBT2907ALT3G TRANS PNP 60V 0.6A SOT−23 1 29 Q6,Q7 50C02CH− TL−E sot−23 DigiKey 50C02CH− TL−EOSCT− ND ON Semi 50C02CH− TL−E TRANS NPN 50V 0.5A CPH3 2 30 Q9 NTLJD3115PT1G 6−WDFN (2X2) DigiKey NTLJD3115PT 1GOSCT−ND ON Semi NTLJD3115PT1G MOSFET 2P−CH 20V 2.3A 6−WDFN 1 31 Q11,Q12, Q13,Q14, Q15,Q16, Q17,Q18 NTA4153NT 1G sot−416 DigiKey NTA4153NT1GOSCT−ND ON Semi NTA4153NT 1G MOSFET N−CH 20V 915MA SOT−416 8 32 R1,R2, R20,R21, R36,R40, R59,R62 50E R0402 DigiKey P49.9LDKR− ND Panasonic ERJ−2RKF4 9R9X RES SMD 49.9 OHM 1% 1/10W 0402 8 33 R3,R25 125E R0402 DigiKey P124LCT−ND Panasonic ERJ−2RKF1 240X RES SMD 124 OHM 1% 1/10W 0402 2 34 R4,R30 84E R0402 DigiKey P84.5LCT−ND Panasonic ERJ−2RKF8 4R5X RES SMD 84.5 OHM 1% 1/10W 0402 2 35 R5,R10, R12,R14, R15,R16, R24,R28, R33,R34, R35,R39, R43,R46, R49,R57, R63,R75, R83,R84, R85,R86, R87,R88, R90,R91, R92,R93, R94,R100, R101,R105,R106,R107,R108,R109,R110,R111, R112,R113, R114,R115, R118,R119, R120,R121, R131 0E R0402 DigiKey 541−0.0JCT− ND Vishay Dale CRCW0402000 0Z0ED RES SMD 0.0 OHM JUMPER 1/16W 47 36 R7,R9,R53 0E R0402 DigiKey 541−0.0JCT− ND Vishay Dale CRCW0402000 0Z0ED RES SMD 0.0 OHM JUMPER 1/16W 3 37 R116,R117, R149 0E R0402 DigiKey 541−0.0JCT− ND Vishay Dale CRCW0402000 0Z0ED RES SMD 0.0 OHM JUMPER 1/16W 3 www.onsemi.com 12 Notes / Remarks NB3x6x1xxG16QFNEVK BILL OF MATERIAL MAIN BOARD Sl No Reference Part PCB Footprint Vendor Vendor PN Manufacturer Manufacturer Part# Description Qty 38 R22,R41, R54,R55, R56,R58, R61,R65, R67,R68, R69,R70, R71,R72, R74,R76, R78,R79, R80,R81, R89,R136, R150 10K R0402 DigiKey P10KJCT−ND Panasonic ERJ−2GEJ1 03X RES SMD 10K OHM 5% 1/10W 0402 23 39 R23,R82 2.2K R0402 DigiKey P2.2KJCT−ND Panasonic ERJ−2GEJ2 22X RES SMD 2.2K OHM 5% 1/10W 0402 2 40 R31,R77 82E R0603 DigiKey 541−82.0HCT−ND Vishay Dale CRCW060382R 0FKEA RES SMD 82 OHM 1% 1/10W 0603 2 41 R37,R50 50K R0402 DigiKey P10KJCT−ND Panasonic ERJ−2GEJ1 03X RES SMD 10K OHM 5% 1/10W 0402 2 42 R48 12K R0402 DigiKey P12.0KLCT− ND Panasonic ERJ−2RKF1 202X RES SMD 12K OHM 1% 1/10W 0402 1 43 R64,R66, R103,R104,R122,R123,R124,R125,R126, R141,R143, R140,R142 1K R0402 DigiKey P1.0KJCT−ND Panasonic ERJ−2GEJ1 02X RES SMD 1K OHM 5% 1/10W 0402 13 44 R73 1.5K R0402 DigiKey P1.5KJCT−ND Panasonic ERJ−2GEJ1 52X RES SMD 1.5K OHM 5% 1/10W 0402 1 45 R137,R138 22K R0402 DigiKey P22KJCT−ND Panasonic ERJ−2GEJ2 23X RES SMD 22K OHM 5% 1/10W 0402 2 46 R148 8.2K R0402 DigiKey P8.2KJCT−ND Panasonic ERJ−2GEJ8 22X RES SMD 8.2K OHM 5% 1/10W 0402 1 47 R139 47K R0402 DigiKey P47KJCT−ND Panasonic ERJ−2GEJ4 73X RES SMD 47K OHM 5% 1/10W 0402 1 48 R144,R145 33K R0402 DigiKey P33KJCT−ND Panasonic ERJ−2GEJ3 33X RES SMD 33K OHM 5% 1/10W 0402 2 49 R146 3.3K R0402 DigiKey P3.3KJCT−ND Panasonic ERJ−2GEJ3 32X RES SMD 3.3K OHM 5% 1/10W 0402 1 50 SW1,SW2 SDA01H1SBD DigiKey CKN10358−ND C&K Components SDA01H1SBD SWITCH DIP TAPE SEALED 1POS 24V 2 51 TP1,TP2, TP5,TP6, TP7,TP8, TP9,TP20, TP28 Test Pad 50 x 100 mil NA NA NA NA NA NA 9 52 TP3,TP4, TP11,TP14, TP17,TP18, TP21,TP22, TP23,TP24, TP25,TP26, TP27,TP19 Test Pad 30 x 60 mil TP_70_36 DigiKey 732−5314−ND Wurth Electronics Inc 6130011112 1 CONN HEADER 1 POS 2.54 14 53 U1,U3 ADG3257BRQZ QSOP_16P_25MIL DigiKey ADG3257BRQZ−ND Analog Devices ADG3257BRQZ IC MUX QUAD 3.3/5V HS 16−QSOP 2 54 U2 NB3H63143G QFN_16P_ 0P5MM 55 U4 FT2232H qfn_64_0p 5 DigiKey 768−1025−1− ND FTDI FT2232HQ− REEL IC USB HS DUAL UART/FIFO 64−QFN 1 56 U5 CAT93C56YI −GT3 tssop_8_4p 4w_0p65 Digi−Key CAT93C56YI− GT3−ND ON Semi CAT93C56YI −GT3 IC EEPROM 2KBIT 2MHZ 8TSSOP 1 57 U6,U9 NCP4688DSN33T1G, 3.3 V sot23−5 ON Semi NCP4688DSN 33T1GOSCT− ND ON Semi IC REG LDO 3.3V 0.15A SOT23−5 2 1 NCP4688DSN33T1G 58 U7 NCP4688DSN18T1G, 1.8 V sot23−5 ON Semi NCP4688DSN 18T1GOSCT− ND ON Semi NCP4688DSN18T1G IC REG LDO 1.8V 0.15A SOT23−5 1 59 U8 NCP4688DSN25T1G, 2.5 V sot23−5 ON Semi NCP4688DSN 25T1GOSCT− ND ON Semi NCP4688DSN25T1G IC REG LDO 2.5V 0.15A SOT23−5 1 www.onsemi.com 13 Notes / Remarks Test point ON Semiconductor part NB3x6x1xxG16QFNEVK BILL OF MATERIAL MAIN BOARD Sl No Reference Part PCB Footprint Vendor Vendor PN Manufacturer Manufacturer Part# Description Qty 60 U11,U12, U13,U14 S−2151 DigiKey 563−1088−ND Copal Electronics S−2151 SW ROTARY DIP SP4T SIDE KNOB 5V 4 61 U15,U16 SS−10−15SP−LE DigiKey 563−1078−ND Copal Electronics SS−10−15SP−LE SWITCH ROTARY DIP SP5T TOP 5V 2 62 U17 NCS2220AMUT1G 8l_udfn_0P 4 DigiKey NCS2220AMUT1GOSCT− ND ON Semi NCS2220AMUT1G IC COMPARATOR DUAL LV 8UDFN 1 63 VTT1, VDDO_EXT1, VDD_EXT T POINT R TP_70_36 DigiKey 732−5314−ND Wurth Electronics Inc 6130011112 1 CONN HEADER 1 POS 2.54 3 64 Y1 SMT XTRL_25MHz CRY_ECX_6150 ECLIPTEK ECX 6150 2 5.000M ECLIPTEK 65 Y3 12 MHz CRY− ABM8G Digi−Key 535−10901−1 −ND Abracon Corp ABM8G−12. 000MHZ−4Y −T3 Crystal 12.0000MHz 30ppm 10pF 120 Ohm −10 C − 60 C Surface Mount 4−SMD, No Lead (DFN, LCC) 1 66 H1,H2,H3, H4,H5 (Mechanical) Standoff, 4−40 1/4 x 5/8 Standoff, 4−40 1/4 x 5/8 DigiKey 1808K−ND Keystone 1808 HEX STANDOFF 4−40 ALUMINUM 5/8” 5 67 To be used with these connectors− J24,J25, J26,J27, J28,J19 and as spare. Shunt Shunt DigiKey 3M9580−ND 3M 969102−000 0−DA SHUNT JUMPER .1” BLACK GOLD 11 68 H1,H2,H3, H4,H5 (Mechanical) Screw, 4−40 x 0.25, PHP Screw, 4−40 x 0.25, PHP DigiKey H342−ND Building Fasteners PMS 440 0025 PH MACHINE SCREW PAN PHILLIPS 4−40 5 69 VTT1, VDDO_EXT1, VDD1 T POINT R TP_70_36 DigiKey 732−5314−ND Wurth Electronics Inc 6130011112 1 CONN HEADER 1 POS 2.54 4 70 To be used with these Switchs− U11,U12, U13,U14, U15,U16 Switch Knob Black DigiKey 563−1089−ND Copal Electronics K1 SWITCH KNOB BLACK 6 www.onsemi.com 14 1 Notes / Remarks Based on Crystal values NB3x6x1xxG16QFNEVK BILL OF MATERIAL DAUGHTER BOARD Sl No Reference Part PCB Footprint Vendor Vendor PN Manufacturer Qty 1 C13, C15, C17, C19 4.7 mF C0603 DigiKey 587−1782−1−ND Taiyo Yuden 4 2 C23, C25 0E R0603 DigiKey 541−0.0GCT−ND Vishay Dale 2 3 C14, C16, C18, C20 10 mF C0603 DigiKey 587−3383−1−ND Taiyo Yuden 4 4 VDDO1, VDDO2, VDDO0, VDD, GNDO, GND Test Pad 30 x 60 mil TP_70_36 DigiKey 732−5314−ND Wurth Electronics Inc 6 5 J5, J6, J7, J8 CONN RCPT 4 BERG_1X4_2P5 4 DigiKey S1011EC−04−ND Sullins Connector Solutions 4 6 J12 SMA−J−P−H−ST− EM1−ND con_sma_edge DigiKey SMA−J−P−H−ST− EM1 Samtec Inc 1 7 J9, J10, J11 CONSMA001−SMD−G−ND Con_SMA_SMD DigiKey CONSMA001−SMD−G Linx Technologies Inc 3 8 J26, J27, J28, J29, J30, J31 Header 3−pin berg_1x3_2p54 DigiKey 3M9448−ND 3M 6 9 L3, L4, L6 FBMJ2125HS250NT9 L0805 DigiKey 587−1767−1−ND Taiyo Yuden 3 10 R58, R61, R62, R48, R55, R57 0E R0402 DigiKey 541−0.0JCT−ND Panasonic 6 11 SW1, SW2, SW3 SDA01H1SBD NA DigiKey CKN10358−ND C&K Components 3 12 U2 Socket SOCK_16L_QFN Loranger 03714 171 6217 Loranger 1 13 Y3 SMT XTRL_25MHz CRY_ECX_6150 ECLIPTEK ECX−6150−25.000M ECLIPTEK 1 14 Y3 ED1290−ND SKT CONTACT DigiKey 8975−0−15−15−21− 27−10−0 Mill−Max 2 ON Semiconductor and the are registered trademarks of Semiconductor Components Industries, LLC (SCILLC) or its subsidiaries in the United States and/or other countries. SCILLC owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of SCILLC’s product/patent coverage may be accessed at www.onsemi.com/site/pdf/Patent−Marking.pdf. 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 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: Literature Distribution Center for ON Semiconductor 19521 E. 32nd Pkwy, Aurora, Colorado 80011 USA Phone: 303−675−2175 or 800−344−3860 Toll Free USA/Canada Fax: 303−675−2176 or 800−344−3867 Toll Free USA/Canada Email: [email protected] N. American Technical Support: 800−282−9855 Toll Free USA/Canada Europe, Middle East and Africa Technical Support: Phone: 421 33 790 2910 Japan Customer Focus Center Phone: 81−3−5817−1050 www.onsemi.com 15 ON Semiconductor Website: www.onsemi.com Order Literature: http://www.onsemi.com/orderlit For additional information, please contact your local Sales Representative EVBUM2308/D