ON Semiconductor NB3V63143G User manual

Brand: ON Semiconductor

Model: NB3V63143G

Type: User manual

This manual is also suitable for

NB3H73113G

March, 2017 − Rev. 3

1Publication Order Number:

EVBUM2308/D

NB3x6x1xxG16QFNEVK

NB3x6x1xxG16QFN

OmniClock Evaluation

KitManual

Devices Supported

•NB3H63143G (QFN16, 3.3V)

•NB3V63143G (QFN16, 1.8V)

•NB3H73113G (QFN16, 3.3V)

Introduction

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

and NB3H73113G devices. A view of the main board with

the 16QFN daughter board is shown in Figures 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.

Part Description

The NB3x6x1xxG and NB3H73113G, which are

members of the OmniClock family, are versatile user

programmable clock generators designed by ON

Semiconductor with customer experience in mind. These

devices are tailored to fit into 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 3.3V

and 2.5V supplies while NB3V parts support 1.8V

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.

Figure 1. 455 View of Main Board with QFN16

Daughter Board

Figure 2. Top View of Main Board with QFN16

Daughter Board

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EVAL BOARD USER’S MANUAL

NB3x6x1xxG16QFNEVK

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Figure 3. Main Board

Figure 4. 16QFN Daughter Board

NB3x6x1xxG16QFNEVK

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Step 1: Hardware Setup

Note: Skip this section if device has already been programmed.

Main Board

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 all SMA cables are unplugged from main board and daughter board.

3. Jumpers:

a. Use jumpers to provide connection as referenced in 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

4. Switches:

b. Slide switches to the position referenced in table below: (ON position is indicated via lettering on switch)

Switch No SW1 SW2

Position ON ON

5. Rotary Switches:

c. Turn knob on rotary switches as shown in table below: (The position number will be displayed in a slit on the knob)

Jumper No U11 U12 U13 U14 U15 U16

Dial Display 1 1 1 1 1 1

Daughter Board

1. Jumpers:

a. Use Jumpers to provide connection as referenced in 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

2. Switches:

b. Slide switches to the position referenced in table below: (ON position is indicated via lettering on switch)

Switch No SW1 SW2 SW3

Position ON ON ON

3. Ensure that Crystal (XTAL) is in holder.

4. Place NB3H63143G or NB3V63143G in DUT socket U2. For device pin 1 alignment refer to Figure 4.

NB3x6x1xxG16QFNEVK

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Step 2: Device Programming

Note: Skip this section if device has already been programmed

1. Download and install Clock Cruiser GUI Software to a computer that meets or exceeds minimum requirements found

on Clock Cruiser User guide.

2. Connect the evaluation kit to an USB port using included USB cable. A LED next to the USB connector will glow

red, indicating that +5 V supply has been applied to EVB.

3. Run the Clock Cruiser GUI software. A blue LED (D9) will light up when a connection is established, this LED will

blink periodically as activity is being conducted.

4. Follow the Clock Cruiser User Guide for detailed instructions on navigating through the program to properly

configure device.

5. 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.

6. Set appropriate device VDD/VDDO levels.

a. Set VDD and VDDO for each output by using the four rotary switches (U11, U12, U13, and U14) located on the main

board to match device configuration. Make sure that VDDO’s 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 below).

Rotary Switch Line

Voltage for Each Switch Position

1 2 3 4

U11 VDD +3.3 V

+2.5 V +1.8 V external source

U12 VDDO0

VDD

U13 VDDO1

U14 VDDO2

7. Program the device permanently by selected [Program OTP Memory] or write to device registers by clicking [Write

to Registers]. In the case Write to Register function is utilized, powering down evaluation kit (i.e. unplugging USB

cable) will reset device registers.

Step 3: Device Evaluation

Select Input Clock

Depending on the programmed configuration, select one of the following input clock references.

1. Crystal (XTAL): The evaluation kit comes equipped with a 25 MHz fundamental crystal on the daughter board. If a

different frequency is required, place new crystal in holder. Device can accept 3 MHz to 50 MHz crystal references.

Please follow the additional step below to properly use Crystal as input reference:

a. Place SW1 on daughter board in the OFF position.

2. External Clock Reference: To use an external clock reference, connect external clock to SMA connector J31 on the

main board. Device can accept 3 MHz to 200 MHz clock references, reference device datasheet for appropriate input

levels.

Please follow additional steps below to properly use an external clock input source:

a. Close out GUI software to stop communication between GUI and EVB.

b. Unplug and Re−plug EVB to USB port.

c. Manually supply power to device with PD# pin. (See section Controlling the Device (GPIO pins) for proper use of

PD# pin)

Note: External Clock can only be used with devices that have been OTP’d.

NB3x6x1xxG16QFNEVK

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Select Output Termination

DUT outputs are routed to three SMA connectors on the main board (J7, J9, and J23) to provide termination for CLK0, CLK1,

and CLK2 respectively. By turning rotary switches U15 and U16, the board will automatically terminate the programmed

output level for CLK0 and CLK1, to its respective output termination in table below.

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

Note: CLK2 output only supports LVCMOS levels; therefore its termination is fixed.

Interfacing with Test Equipment

Monitor DUT outputs from main board with an oscilloscope with either SMA connectors or on board jumpers.

1. To use SMA connectors (J7, J9, J23), use oscilloscopes Hi−Z feature or a Hi−Z probe to monitor outputs. (Ensure

probe is properly grounded)

2. To use Jumpers (J33, J34, J35), use a Hi−Z probe connected to jumper pin marked 0. (Ensure probe is properly

grounded)

Both options can be used to monitor all three DUT outputs.

Controlling the Device (GPIO pins)

The device has multiple functions that can be programmed via control pins, below is a list of control pins and their respective

SMA connector.

OE: Pin used to enable or disable outputs individually. The main and daughter boards both have OE pins that can be easily

accessed via jumpers.

Main board: CLK0=J28, CLK1=J25, CLK2=J24

Daughter board: CLK0=J27, CLK1=J28, CLK2=J29

OE Function

0CLK Disabled

1CLK Enabled

PD#: Pin used to power down device, this pin can be controlled either with J29 (main board) or J26 (daughter board). The logic

state of this signal corresponds to the LED (D9) on the main board.

PD# Function LED (D9)

0Device Powered Down Off

1Device Powered Up On

NB3x6x1xxG16QFNEVK

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SEL: Pin is used to select between the available four output configurations that can be stored in devices OTP memory.

Main board: SEL0=J27, SEL1=J26

Daughter board: SEL0=J30, SEL1=J31

SEL0 SEL1 Output Configuration

L L I

L H II

H L III

H H IV

For NB3x73113G devices, SEL is replaced with SCLK and SDATA signals for I2C / SMBus communication. These devices

support one configuration, which can be modified, by writing device registers with a new configuration file created from the

Clock Cruiser Software, a freely down loadable GUI software available on www.onsemi.com.

Programming Reminders

While communicating between the GUI and device ensure the following:

Main Board

1. Switches SW1 and SW2 are set to the ON state.

2. Rotary switches U11, U12, U13, U14, U15 and U16 are in the “1” position.

3. All SMA cables are detached from test equipment.

Daughter Board

1. Switches SW1, SW2 and SW3 are set to the ON position.

2. All SMA cables are detached from test equipment.

When re−configuring temporary device registers ensure the following:

1. Re−initiate main board hardware setup.

2. Re−initiate daughter board hardware setup.

3. Re−initiate GUI by either returning to previous page with [back] button or restarting GUI software.

Note: Even if device OTP memory has been programmed, device registers can be used to write other solutions for evaluation.

NB3x6x1xxG16QFNEVK

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APPENDIX

Unpopulated Boards

Figure 5. Main Board Top View

Figure 6. Main Board Bottom View

Figure 7. QFN16 Daughter Board Top View

Figure 8. QFN16 Daughter Board Bottom View

NB3x6x1xxG16QFNEVK

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OUTPUT TERMINATION

HCSL

CML

LVPECL

LVDS

NB3x6x1xxG16QFNEVK

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Main Board Schematic

Figure 9. Main Board Schematic (1 of 3)

J16

SMDHeader 2−pin

VDD

R102

NP_1K

R104

3V3_FT

−

U17B

3V3_FT

R122

3V3_FT

R123

3V3_FT

R124

3V3_FT

R125

SEL11

SEL00

thick trace

R89

10K

1 2

InPin13

VDD

J36

SMDHeader 2−pin

1 2

TP27 1

J37

SMDHeader 2−pin

1 2

TP4 1TP17 1

J23 SMA Jack, End Launch

CLK2

R77

82E

thick trace

4pF_NP

VDD

R90

R58

10K

1 2

Pin5

R84 0E

1 2

LG L29K−F2J1−24−Z

R76

10K

1 2

VDD

R93

Pin6

R87 0E

1 2

USB_5V

VDD

LG L29K−F2J1−24−Z

J20

SMDHeader 2−pin

R61

10K

VDD

R22

10K

R66

PD#_PRE

R23

2.2K

R47

0E_NP

R27 0E_NP

1 2

J15

SMDHeader 2−pin

R92

Pin15

4pF_NP

R86 0E

1 2

REF

SMA Jack, End Launch

CLK1_SMA

VDDO_1

R127

84E_NP

R128

125E_NP

No other signals should be close to Xtal and Xin/ XOUT. No GND

plane near Xtal and Xin/ XOUT.

Minimum trace

VDD D6

LG L29K−F2J1−24−Z

LB Q39G−L2N2−35−1

VDD VDD

4pF_NP

SMA Jack, End Launch

CLK0_SMA

REF

VDDO_1

R130

125E_NP

R129

84E_NP

NTS2101P/ON

Q11

NTA4153NT1G

2 3

Q12

NTA4153NT1G

2 3

Q13

NTA4153NT1G

2 3

Q15

NTA4153NT1G

2 3

XOUT

CLK0_SMA

R10

CLK1_SMA

J26

123

SEL1

Testclk

sdata

sclk

GND_VDDO

SEL1

OE2

OE1

OE0

SEL0

InPin9

0E_NP

InPin9

123

VDD

Pin9_I/P

Pin16

J27

123

SEL0

J13

4 HEADER

Testdata

GUI_PD#

J12

4 HEADER

J21

4 HEADER

GND_VDDO

InPin10

R32

0E_NP

Place all resistors as close as possible to each connetion on U10. Keep trace lenght f rom middle headers to SMA launch

smallest possible. Place U10 between CLK0 and CLK1 traces with equal length of individ ual terminations on ports 1 and 2.

Pin10_I/P

VDD

J17

123

GND_VDDO

M13

M14

M15

M16

M2 M11

M10

U11

S−2151

M12

REFERENCEVDD

CLK1CLK0

J31

SMA Jack, End Launch

CLKIN

VDD_EXT

3V3 1V82V5

VDD

R45

0E_NP

J30

123

Pin13_I/P

R136

10K

U12

S−2151

Note: Use_ 0.01uF_C2 and

C3_for_AC_coupling_only

R116 0E

1.8V

2P5

R117 0E

Overlay SMT pads 1, 2 on SMD pads 1 and 3.

Overlap 2−pin jumper and resistor. Place jumper

one pin on or near crystal.

VDD

EXT

2.5V

1V8 VDDO_0_EXT

Out1

R150

10K

VDDO_0

Note: Default value of

R4,R3,R25,R30 for VDDO_1=3.3V

R85 0E

1 2

R91

Q16

NTA4153NT1G

2 3

U13

S−2151

VDDO_1_EXT1V82P5VDD

PD#_PRE

R100

U14

S−2151

R101 0E

1 2

2P5

Q17

NTA4153NT1G

2 3

VDDO_2_EXT1V8VDD

Close to DUT

pin1 and

connector pin 1

(M1). VDDO_1

Pin16

VDDO_2

LED when ON = Input High

LED when OFF = Input Low

R132_NP 0E

12 R133

0E_NP1%

12 CLK0

Out0

R134

0E_NP

R135_NP 0E

Out1

CLK1

R94

R88 0E

1 2 Q14

NTA4153NT1G

2 3

Pin7

R148

8.2K

EPAD must be

part of GND_VDDO

plane.

TP2_NP

VDDO_0

TP5_NP

VDDO_1

0.01uF_NP_Mount Resistor_0E

VDDO_1

R26 0E_NP12

R24 0E

PD#

0.01uF_NP_Mount Resistor_0E

TP6_NP

VDDO_2

R17 0E_NP12 OE0

NTS2101P/ON

R16 0E 12 M5

NTS2101P/ON

R19 0E_NP

12 OE1

R15 0E 12 M6

J32

123

VDDO_1

50E

R18 0E_NP12

R21

50E

OE2

R14 0E

CML

VDDO_1

R60

0E_NP

CML

R62

50E

REF

LVDS

R59

50E

LVDS

VDDO_1

Mount 50E for

LVPECL (VTT)

NP for

LVPECL (VTT)

REF

R43 0E

R42 0E_NP12

84E

125E

SEL1

R30

84E

LVPECL

M15

R25

125E

VDDO_1

R36

50E

1 2

NP for

LVPECL (VTT)

Mount 50E for

LVPECL (VTT)

LVPECL

REF

LVPECL

HCSL

OTP_WR

No Connection/ LVCMOS

LVDS

CML

Q9A

NTLJD3115P

R38 0E_NP12

VDD

SEL0

Xin

R39 0E 12 M16

Xin

R37

50K

50E

R44 0E_NP

GND_VDDO

R46 0E

HCSLHCSL

GND_VDDO

R20

50E

M13

Out0

NB3H63143G_NP

CLK0 9

CLK1 10

CLK2 13

XIN

XOUT

PD#

OE0

OE1

OE2

VDDO_0

VDDO_1

VDDO_2

VDD

GND

EPAD

SEL1

SEL0

R53

TP26

VDD

Extclk

VDD

Pin5

VDD

SMD XTAL_NP

TP25 1

VDD

C43

18pF_NP

SMT XTAL_25MHz

C25

18pF_NP

Pin6

VDD

PD#_PRE

TP24 1

R79

10K

R80

10K

VDD

R81

10K

PD#

Pin7

VDD

M12

VDD

TP23 1

VDD

VDDO_2

M14

VDDO_0M8

VDDO_1

M11

Pin15

R52

50E_NP

J29

123

PD#

J28

123

R40

50E

TP22 1

R149

R50

50K

VDD

Q9B

OE0

J33

SMDHeader 2−pin

1 2 REF

Xin

J25

123

3V3_FT

OE1

J24

123

R31

82E

thick trace

OE2

OTP_WR

VDD

REF

J34

SMDHeader 2−pin

1 2

SEL00

Function ModeProg. Mode /

R13 0E_NP

R12 0E 12

CLK0

R29 0E_NP

R28 0E 12

CLK1

”GUI_SEL_XIN” CONTROLS THE DEMUX TO CONNECT THE

DEVICE WITH PROGRAMMING SIGNALS FROM THE GUI. WHEN

SELECTED, ALL FTDI CONTOL PINS ARE CONNECTED TO

DEVICE, WHEN DE−SELECTED, DEVICE RESUMES THE

FUNCTION MODE.

M10

U16

SS−10−15SP−LE

IN_C1

IN_C2

U15

SS−10−15SP−LE

IN_C1

IN_C2

LVDS

CML

LVPECL

HCSL

TP29_NP

R51 0E_NP

XOUT

R6 50E_NP

R49 0E 12 M1

R131 0E 12 Clkin

R11

50E_NP

TP30_NP

TP31_NP

TP32_NP

GUI_SEL_XIN

Connectors to mount daughtercards around the footprint

of NB3H63143G part footprint

USB_5V

GUI_SEL_XIN

SW1

SDA01H1SBD

1 2

SW2

SDA01H1SBD

1 2

ADG3257BRQZ

1B1

1B2

2B1

2B2

3B1

3B2

4B1

4B2

3A 9

VCC

GND

BE#

sdata

sclk

−

U17A

NCS2220A

SEL1

OE2OE1OE0

2.5V/3.3V1.8V

PD#SEL0

R138

22K

R137

22K

50C02CH

2 3

R139

47K

50C02CH

2 3

R140

R142

R141

R144

33K

R143

R145

33K

LED1

SML−P24MUW

2V5

J35

SMDHeader 2−pin

GREENRED

R146

3.3K

GUI_SEL_XIN

GND_VDDO

Testclk

Extclk

Clkin

TP7_NP

VDDO_0_EXT

TP8_NP

VDDO_1_EXT

1TP9_NP

VDDO_2_EXT

R95

NP_1K

VDD

ADG3257BRQZ

1B1

1B2

2B1

2B2

3B1

3B2

4B1

4B2

3A 9

VCC

GND

BE#

R96

NP_1K

R97

NP_1K

GUI_OE0

USB_5V

GUI_OE1

GUI_OE2

2P5USB_5V

R147

0E_NP

1 2

R98

NP_1K

R99

NP_1K

R103

3V3_FT

NB3x6x1xxG16QFNEVK

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Figure 10. Main Board Schematic (2 of 3)

LG L29K−F2J1−24−Z

SEL00

3V3_FT

GUI_SEL_XIN

R65 10K

1 2

SEL11

MMBT2907ALT1G

3 2

OTP_WR

sdata

R70

10K

R67

10K

R71

10K

R72

10K

Testdata

Testclk

3V3_FT

P13488CT−ND

R126

Green Color

Amber Color

3V3_FT

R68 10K

1 2

R69 10K

1 2

VDD

R105

1 2

R106

1 2

R107

1 2

R108

1 2

R109

1 2

SEL00

R110

1 2

SEL11

InPin10

R111

1 2

SEL11

R112

1 2

InPin9

R113

1 2

R114

1 2

InPin13

R115

1 2

OTP_WR

GUI_SEL_XIN

GUI_PD#

Testclk

Testdata

sclk

sdata

FB 600R/0.5A

C35

10nF

16V

R64

Q18

NTA4153NT1G

2 3

3V3_FT

C52

100nF

10V

FT2232H

TCK

TDI

TDO

TMS

GPIOL0

GPIOL1

GPIOL2

GPIOL3

BDBUS0

BDBUS1

BDBUS2

BDBUS3

BDBUS4

BDBUS5

BDBUS6

BDBUS7

BCBUS0

BCBUS1

BCBUS2

BCBUS3

BCBUS4

BCBUS5

BCBUS6

BCBUS7

VCCIO1

VCCIO2

VCCIO3

VCCIO4

VPLL

VPHY

AGND

VREGIN

VREGOUT

VCORE1

VCORE2

VCORE3

GND1

GND2

GND3

GND4

GND5

GND6

GND7

GND8

TEST

EECS

EECLK

EEDATA

REF

RESET#

SUSPEND#

PWREN#

OSCI

OSCO

GPIOH7

GPIOH6

GPIOH5

GPIOH4

GPIOH3

GPIOH2

GPIOH1

GPIOH0

TH_PAD

USB_RST#

TP18

USB 5V

R118

1 2

R55

10K

R56

10K

USB_5V

R54

10K

R119

1 2

InPin9

InPin10

R120

1 2

SEL00

R121

1 2

SEL11

R73

1.5K

1 2

J22

USB

30pF

1 2

3V3_FT

30pF

1 2

C44

100nF

C46

100nF

LED_RED1

USB

1 2

R48

12K

1 2

R82

2.2K

1 2

PACDN004

USB_DM

FB1

600

1 2

USB_DP

12 MHz

FB2

600

1 2

CAT93C56YI−GT3

DOUT

NC2

GND

DIN

CLK

NC1

VCC

C37

100nF

C36

100nF

C45

100nF

C39

4.7uF

6.3V

C49

100nF

C42

4.7uF

6.3V

C47

4.7uF

6.3V

C48

100nF

3V3_FT

C50

100nF

3V3_FT

C40

100nF

3V3_FT

R74

10K

R78

10K

VDD

R41

10K

1 2

C38

10nF

16V

R35

1 2

R34

1 2

sclk

USB_5V

3V3_FT

R33 0E

1 2

GUI_SEL_XIN

GUI_PD#

InPin13

GUI_OE2

GUI_OE1

GUI_OE0

R63

NB3x6x1xxG16QFNEVK

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Figure 11. Main Board Schematic (3 of 3)

C18

1uF

10V

TP14

2V5

C17

4.7uF

10V

C19

100nF

NCP4688DSN25T1G, 2.5V

OUT

GND

C16

1uF

10V

TP11

1V8

C14

4.7uF

10V

C15

100nF

NCP4688DSN18T1G, 1.8V

OUT

GND

USB_5V

C33

0.01uF

C32

0.1uF

C58

1uF

10V

TP21

3V3_FT

C59

4.7uF

10V

C57

100nF

NEAR DUT PIN

NCP4688DSN33T1G, 3.3V

OUT

GND

VTT

C24

0.1uF

C23

0.01uF

NEAR DUT PIN

C27

2.2uF

C34

0.01uF

NEAR DUT PIN

TP20

GND_F

1TP28

GND

VDD_EXT

C53

22uF_NP

C51

0.1uF_NP

FB13

BEAD

TP1

GND_VDDO

FB5

BEAD

FB8

BEAD

FB3

BEAD

FB11

BEAD

J19

1 2 3

thick trace

GND_VDDO

C60

0.1uF

REF

GND_VDDO

FB10

BEAD

FB4

600

1 2

FB7

BEAD

FB6

BEAD

GND_VDDO

FB12

600

1 2

GND5

C28

0.01uF

C31

22uF

VDD_EXT

C29

0.1uF

VDD R75

C20

0.1uF

C21

0.01uF

NEAR DUT PIN

FB9_NP

600

1 2

C54

0.01uF

GND6

C55

22uF

VTT

C56

0.1uF

VTT1

R83

C22

2.2uF

VDDO_EXT

VTT

GND4

VDDO_0

GND1

C41

22uF

VDDO_1

C26

2.2uF

GND3

VDDO_2

C30

0.1uF

GND2

22uF

C10

0.01uF

VDDO_EXT1

VDDO_EXT

R57

0.1uF

C12

1uF

10V

TP3

3V3

C13

4.7uF

10V

C11

100nF

NCP4688DSN33T1G, 3.3V

OUT

GND

TP19

VTT

thick trace

REF

USB_5V

REF

VDDO_1

GND

LVPECL (VTT reference) = VTT

LVPECL (Thevenin’s network) = GND

HCSL = GND

CML = VDDO_1

LVDS = FLOAT/ NO SHORT

VTT

GND

REF

VDDO_1

VDDO_EXT

NB3x6x1xxG16QFNEVK

www.onsemi.com

16QFN Daughter Board Schematic

Figure 12. 16QFN Daughter Board Schematic

D1−EPAD_Plane

R69

0E_NP_0603

1 2

R68

0E_NP_0603

1 2

R70

0E_NP_0603

1 2

R71

0E_NP_0603

1 2

D1−VDDO_0 D1−VDDO_1

D1−VDDO_1 D1−VDDO_2

D1−VDDO_2 D1−VDDO_0

D1−VDD D1−VDDO_0

SW1

SDA01H1SBD

1 2

XTAL Prog./ Refclk

CONN RCPT 4

SMD XTRL_NP

SMT XTRL_25MHz

C11

30pF_NP

C12

30pF_NP 1

D1−GND_Plane

NB3H63143G

16L QFN

XIN

XOUT

PD#

GND

OE0

OE1

OE2

VDDO_0

CLK0

CLK1

VDDO_1

VDD

CLK2

VDDO_2

SEL1

SEL0

SEL0SEL0

SEL1

D1−VDDO_1

D1−GND_Plane

D1−EPAD_Plane

D1−VDDO_2

D1−VDDO_0

C13

4.7uF

C14

10uF

D1−VDDO_0

C16

10uF

C15

4.7uF

D1−VDDO_1

C17

4.7uF

C18

10uF

D1−VDDO_2

C19

4.7uF

D1−GND_Plane

C20

10uF

D1−VDD

FBMJ2125HS250NT9

D1−VDD

R49

0E_NP

1 2

R48

1 2

D1−CLK1

R51 0E_NP

1 2

C21

4pF_NP

SMA Jack, End Launch

D1−CLK0

R52

84E_NP

VDD

VDDO2

R72

0E_NP

J32

Header 2−pin

R73

0E_NP

D1−GND_Plane

VDDO0

VDDO1

GND

GNDO

C22

1uF_NP

PD#

R57

1 2

R58

OE0

OE1

OE2

R53

125E_NP

C23

0.1uF_NP Mount_Resistor_0E

R54

150E_NP

SW2

SDA01H1SBD

1 2

D1−CLK0

SW3SDA01H1SBD

1 2

Close to DUT

D1−VDDO_1

R55

1 2

C24

4pF_NP

J10

SMA Jack, End Launch

D1−CLK1

R56

84E_NP

C25

0.1uF_NP_Mount_Resistor_0E

R59

125E_NP

R60

150E_NP

D1−CLK1

D1−SMA−GND

Close to DUT

D1−VDDO_1

C26 4pF_NP

J11

SMA Jack, End Launch

D1−CLK2

D1−SMA−GND

D1−CLK2

J26

D1−VDD

PD#

D1−GND_Plane

OE0

J27

D1−VDD

D1−GND_Plane

D1−VDD

OE1

J28

D1−GND_Plane

J29

D1−VDD

OE2

D1−GND_Plane

D1−VDD

SEL0

J30

D1−GND_Plane

D1−VDD

SEL1

J31

D1−GND_Plane

J12

SMA Jack, End Launch

D1−REFCLK

D1−EPAD_Plane

R61

R62

D1−REFCLK

R63

50E_NP

D1−REFCLK

Close to

DUT −

atleast

0.1uF

Close to DUT

R67

100E_NP

D1−EPAD_Plane

J33

Header 2−pin

1 2

J34

Header 2−pin

1 2

J35

Header 2−pin

1 2

D1−SMA−GND

J36

Header 2−pin

1 2

J37

Header 2−pin

1 2

FBMJ2125HS250NT9

D1−SMA−GND

NB3x6x1xxG16QFNEVK

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BILL OF MATERIAL MAIN BOARD

No Reference Part

PCB

Footprint Vendor Vendor PN

Manufac-

turer

Manufac-

turer Part# Description Qty

Notes /

Re-

marks

1 C2,C3 0.01 mF

_Mount R0E

R0402 DigiKey 541−0.0JCT−

Vishay Dale CR-

CW0402000

0Z0ED

RES SMD 0.0 OHM

JUMPER 1/16W

2 C8,C31,

C41,C55

22 mFC0603 DigiKey 587−2085−1−

Taiyo

Yuden

AMK107BJ2

26MA−T

CAP CER 22UF 4V

20% X5R 0603

3 C9,C20,

C24,C29,

C30,C32,

C56,C60

0.1 mFC0402 DigiKey 587−1227−1−

Taiyo

Yuden

LMK105BJ1

04KV−F

CAP CER 0.1UF 10V

10% X5R 0402

4 C10,C21,

C23,C28,

C33,C34,

C54

0.01 mFC0402 DigiKey 490−1312−1−

Murata GRM155R7

1E103KA01-

CAP CER 10000PF

25V 10% X7R 0402

5 C11,C15,

C19,C36,

C37,C40,

C44,C45,

C46,C48,

C49,C50,

C52,C57

100 nF C0402 DigiKey 478−1129−1−

AVX 0402ZD104-

KAT2A

CAP CER 0.1UF 10V

10% X5R 0402

6 C12,C16,

C18,C58

1 mFC0402 DigiKey 490−5409−1−

Murata GRM155R6

1A105ME15-

CAP CER 1UF 10V

20% X5R 0402

7 C13,C14,

C17,C59

4.7 mFC0402 DigiKey 490−5408−1−

Murata GRM155R6

0J475ME87-

CAP CER 4.7UF

6.3V 20% X5R 0402

8 C22,C26,

C27

2.2 mFC0402 DigiKey 490−4518−1−

Murata GRM155R6

0G225ME15-

CAP CER 2.2UF 4V

20% X5R 0402

9 C35,C38 10 nF C0402 DigiKey 478−1114−1−

AVX 0402YC103-

KAT2A

CAP CER 10000PF

16V 10% X7R 0402

10 C39,C42,

C47

4.7 mFC0402 DigiKey 490−5408−1−

Murata GRM155R6

0J475ME87-

CAP CER 4.7UF

6.3V 20% X5R 0402

11 D1 LED_amber LED_0603 DigiKey P13488CT−

Panasonic LNJ414K82-

LED AMBER HIGH

BRIGHT USS 0603

12 D2,D4,D5,

D6,D7,D8

LED_green−

L29K−F2J1−

24−Z

LED_0603 DigiKey 475−3118−1−

OSRAM Op-

to Semicon-

ductors Inc

L29K−F2J1−

24−Z

LED SMARTLED

570NM GREEN 0603

13 D3 PACDN004S-

SOT−143 Mouser 748−PACDN0

04SR

ON Semi 1

14 D9 LB

Q39G−L2N2

−35−1

LED_0603 DigiKey 475−2816−1−

OSRAM Op-

to Semicon-

ductors Inc

Q39G−L2-

N2−35−1

LED CHIPLED BLUE

470NM 0603 SMD

15 FB1,FB2,

FB4,FB12

600 L0402 DigiKey 490−1006−1−

Murata BLM15AG60

1SN1D

FERRITE CHIP 600

OHM 300MA 0402

16 FB3,FB5,

FB6,FB7,

FB8,FB10,

FB11,FB13

BEAD L0805 DigiKey 587−1767−1−

Taiyo Yuden FB-

MJ2125HS2

50NT

FERRITE BEAD 25

OHM 0805

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

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

20 J7,J9,J23,

J31

SMA−

J−P−H−ST−

EM1−ND

con_sma_e-

dge

DigiKey SMA−

J−P−H−ST−

EM1

Samtec Inc SMA−

J−P−H−ST−

EM1

CONN SMA JACK 50

OHM EDGE MNT

21 J8,J12,

J13,J21

4 HEADER berg_1x4_

2p54

DigiKey S7037−ND Sullins Con-

nector Solu-

tions

PP-

PC041LF-

BN−RC

Connector Header 4

Position 0.100”

(2.54mm) Gold

Through Hole

NB3x6x1xxG16QFNEVK

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BILL OF MATERIAL MAIN BOARD

Notes /

Re-

marks

QtyDescription

Manufac-

turer Part#

Manufac-

turer

Vendor PNVendor

PCB

Footprint

PartReference

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

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

24 LED_RED1 LED, Green LED_0603 DigiKey P11475CT−

Panasonic

LNJ212R82-

LED RED TSS TYPE

0603

25 LED1 846−1040−1

−ND

LED_SM-

L_DUO

DigiKey 846−1040−1−

Rohm

Semicon-

ductor

SML−

P24MUWT8

LED PICOLED DUAL

YWGN/RED 1010

26 L1 FB

600R/0.5A

L0402 DigiKey 490−5258−1−

Murata BLM18KG60

1SN1D

FERRITE CHIP 600

OHM 1300MA 0603

27 M1,M2,M3 NTS2101P/

sot−323 DigiKey NTS2101PT1-

GOSCT−ND

ON Semi NTS2101PT

MOSFET P−CH 8V

1.4A SOT−323

28 Q1 MMBT2907A-

LT1G

sot_23 DigiKey MMBT2907AL-

T3GOSCT−

ON Semi MMBT2907-

ALT3G

TRANS PNP 60V

0.6A SOT−23

29 Q6,Q7 50C02CH−

TL−E

sot−23 DigiKey 50C02CH−

TL−EOSCT−

ON Semi 50C02CH−

TL−E

TRANS NPN 50V

0.5A CPH3

30 Q9 NTLJD3115P-

T1G

6−WDFN

(2X2)

DigiKey NTLJD3115PT

1GOSCT−ND

ON Semi NTLJD3115-

PT1G

MOSFET 2P−CH

20V 2.3A 6−WDFN

31 Q11,Q12,

Q13,Q14,

Q15,Q16,

Q17,Q18

NTA4153NT

sot−416 DigiKey NTA4153NT1-

GOSCT−ND

ON Semi NTA4153NT

MOSFET N−CH 20V

915MA SOT−416

32 R1,R2,

R20,R21,

R36,R40,

R59,R62

50E R0402 DigiKey P49.9LDKR−

Panasonic ERJ−2RKF4

9R9X

RES SMD 49.9 OHM

1% 1/10W 0402

33 R3,R25 125E R0402 DigiKey P124LCT−ND Panasonic ERJ−2RKF1

240X

RES SMD 124 OHM

1% 1/10W 0402

34 R4,R30 84E R0402 DigiKey P84.5LCT−ND Panasonic ERJ−2RKF8

4R5X

RES SMD 84.5 OHM

1% 1/10W 0402

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−

Vishay Dale CR-

CW0402000

0Z0ED

RES SMD 0.0 OHM

JUMPER 1/16W

36 R7,R9,R53 0E R0402 DigiKey 541−0.0JCT−

Vishay Dale CR-

CW0402000

0Z0ED

RES SMD 0.0 OHM

JUMPER 1/16W

37 R116,R117,

R149

0E R0402 DigiKey 541−0.0JCT−

Vishay Dale CR-

CW0402000

0Z0ED

RES SMD 0.0 OHM

JUMPER 1/16W

NB3x6x1xxG16QFNEVK

www.onsemi.com

BILL OF MATERIAL MAIN BOARD

Notes /

Re-

marks

QtyDescription

Manufac-

turer Part#

Manufac-

turer

Vendor PNVendor

PCB

Footprint

PartReference

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

39 R23,R82 2.2K R0402 DigiKey P2.2KJCT−ND Panasonic ERJ−2GEJ2

22X

RES SMD 2.2K OHM

5% 1/10W 0402

40 R31,R77 82E R0603 DigiKey 541−82.0HC-

T−ND

Vishay Dale CR-

CW060382R

0FKEA

RES SMD 82 OHM

1% 1/10W 0603

41 R37,R50 50K R0402 DigiKey P10KJCT−ND Panasonic ERJ−2GEJ1

03X

RES SMD 10K OHM

5% 1/10W 0402

42 R48 12K R0402 DigiKey P12.0KLCT−

Panasonic ERJ−2RKF1

202X

RES SMD 12K OHM

1% 1/10W 0402

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

44 R73 1.5K R0402 DigiKey P1.5KJCT−ND Panasonic ERJ−2GEJ1

52X

RES SMD 1.5K OHM

5% 1/10W 0402

45 R137,R138 22K R0402 DigiKey P22KJCT−ND Panasonic ERJ−2GEJ2

23X

RES SMD 22K OHM

5% 1/10W 0402

46 R148 8.2K R0402 DigiKey P8.2KJCT−ND Panasonic ERJ−2GEJ8

22X

RES SMD 8.2K OHM

5% 1/10W 0402

47 R139 47K R0402 DigiKey P47KJCT−ND Panasonic ERJ−2GEJ4

73X

RES SMD 47K OHM

5% 1/10W 0402

48 R144,R145 33K R0402 DigiKey P33KJCT−ND Panasonic ERJ−2GEJ3

33X

RES SMD 33K OHM

5% 1/10W 0402

49 R146 3.3K R0402 DigiKey P3.3KJCT−ND Panasonic ERJ−2GEJ3

32X

RES SMD 3.3K OHM

5% 1/10W 0402

50 SW1,SW2 SDA01H1SB-

DigiKey CKN10358−N-

C&K

Components

SDA01H1-

SBD

SWITCH DIP TAPE

SEALED 1POS 24V

51 TP1,TP2,

TP5,TP6,

TP7,TP8,

TP9,TP20,

TP28

Test Pad 50

x 100 mil

NA NA NA NA NA NA 9 Test

point

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

CONN HEADER 1

POS 2.54

53 U1,U3 ADG3257BR-

QSOP_16-

P_25MIL

DigiKey ADG3257BRQ-

Z−ND

Analog

Devices

ADG3257BR-

IC MUX QUAD

3.3/5V HS 16−QSOP

54 U2 NB3H63143-

QFN_16P_

0P5MM

1 ON

Semi-

con-

ductor

part

55 U4 FT2232H qfn_64_0p

DigiKey 768−1025−1−

FTDI FT2232HQ−

REEL

IC USB HS DUAL

UART/FIFO 64−QFN

56 U5 CAT93C56YI

−GT3

tssop_8_4p

4w_0p65

Digi−Key CAT93C56YI−

GT3−ND

ON Semi CAT93C56YI

−GT3

IC EEPROM 2KBIT

2MHZ 8TSSOP

57 U6,U9 NCP4688DS-

N33T1G, 3.3

sot23−5ON Semi NCP4688DSN

33T1GOSCT−

ON Semi

NCP4688DS-

N33T1G

IC REG LDO 3.3V

0.15A SOT23−5

58 U7 NCP4688DS-

N18T1G, 1.8

sot23−5ON Semi NCP4688DSN

18T1GOSCT−

ON Semi NCP4688DS-

N18T1G

IC REG LDO 1.8V

0.15A SOT23−5

59 U8 NCP4688DS-

N25T1G, 2.5

sot23−5ON Semi NCP4688DSN

25T1GOSCT−

ON Semi NCP4688DS-

N25T1G

IC REG LDO 2.5V

0.15A SOT23−5

NB3x6x1xxG16QFNEVK

www.onsemi.com

BILL OF MATERIAL MAIN BOARD

Notes /

Re-

marks

QtyDescription

Manufac-

turer Part#

Manufac-

turer

Vendor PNVendor

PCB

Footprint

PartReference

60 U11,U12,

U13,U14

S−2151 DigiKey 563−1088−ND Copal

Electronics

S−2151 SW ROTARY DIP

SP4T SIDE KNOB

61 U15,U16 SS−10−15S-

P−LE

DigiKey 563−1078−ND Copal

Electronics

SS−10−15S-

P−LE

SWITCH ROTARY

DIP SP5T TOP 5V

62 U17 NCS2220AM-

UT1G

8l_udfn_0P

DigiKey NCS2220AMU-

T1GOSCT−

ON Semi NCS2220A-

MUT1G

IC COMPARATOR

DUAL LV 8UDFN

63 VTT1,

VD-

DO_EXT1,

VDD_EXT

T POINT R TP_70_36 DigiKey 732−5314−ND Wurth

Electronics

Inc

6130011112

CONN HEADER 1

POS 2.54

64 Y1 SMT

XTRL_25MH-

CRY_EC-

X_6150

ECLIPT-

ECX 6150 2

5.000M

ECLIPTEK 1 Based

Crystal

values

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)

66 H1,H2,H3,

H4,H5 (Me-

chanical)

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”

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

68 H1,H2,H3,

H4,H5 (Me-

chanical)

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

69 VTT1,

VD-

DO_EXT1,

VDD1

T POINT R TP_70_36 DigiKey 732−5314−ND Wurth Elec-

tronics Inc

6130011112

CONN HEADER 1

POS 2.54

70 To be used

with these

Switchs−

U11,U12,

U13,U14,

U15,U16

Switch Knob

Black

DigiKey 563−1089−ND Copal Elec-

tronics

K1 SWITCH KNOB

BLACK

NB3x6x1xxG16QFNEVK

www.onsemi.com

BILL OF MATERIAL DAUGHTER BOARD

No Reference Part PCB Footprint Vendor Vendor PN Manufacturer Qty

1C13, C15, C17, C19 4.7 mFC0603 DigiKey 587−1782−1−ND Taiyo Yuden 4

2C23, C25 0E R0603 DigiKey 541−0.0GCT−ND Vishay Dale 2

3C14, C16, C18, C20 10 mFC0603 DigiKey 587−3383−1−ND Taiyo Yuden 4

4VDDO1, VDDO2,

VDDO0, VDD, GNDO, GND

Test Pad 30 x 60 mil TP_70_36 DigiKey 732−5314−ND Wurth

Electronics Inc

5J5, J6, J7, J8 CONN RCPT 4 BERG_1X4_2P5

DigiKey S1011EC−04−ND Sullins Connec-

tor Solutions

6 J12 SMA−J−P−H−ST−

EM1−ND

con_sma_edge DigiKey SMA−J−P−H−ST−

EM1

Samtec Inc 1

7J9, J10, J11 CONS-

MA001−SMD−G−ND

Con_SMA_SMD DigiKey CONS-

MA001−SMD−G

Linx

Technologies Inc

8J26, J27, J28, J29, J30, J31 Header 3−pin berg_1x3_2p54 DigiKey 3M9448−ND 3M 6

9L3, L4, L6 FB-

MJ2125HS250NT9

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 Compo-

nents

12 U2 Socket SOCK_16L_QF-

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

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