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©

 Semiconductor Components Industries, LLC,  2016

July, 2016 − Rev. 1

1

Publication Order Number:

EVBUM2358/D

NB3x6x1xxG8DFNEVK

NB3x6x1xxG8DFN

OmniClock 

Evaluation

KitManual

Devices Supported

NB3H60113G (DFN8, 3.3 V)

NB3V60113G (DFN8, 1.8 V)

Introductio

n

NB3x6x1xxG8DFNEVK  is an evaluation kit offering a

convenient solution for evaluating DFN8 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 DFN8 socket to test NB3x6x1xxG
devices. A view of the main board with the DFN8 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.

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 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 3.3 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.

Figure 1. 45

5

 View of Main Board with DFN8

Daughter Board

Figure 2. Top View of Main Board with DFN8

www.onsemi.com

EVAL BOARD USER’S MANUAL

Summary of Contents for NB3x6x1xxG8DFN

Page 1: ...to device registers for evaluation For more information on using the GUI refer to Clock Cruiser User Guide 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 into an extensive array of applications including wearable technology smart pho...

Page 2: ...NB3x6x1xxG8DFNEVK www onsemi com 2 Figure 3 Main Board Figure 4 DFN8 Daughter Board ...

Page 3: ...lide 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 refere...

Page 4: ... 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 Evalua...

Page 5: ...se 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 cont...

Page 6: ... 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...

Page 7: ...NB3x6x1xxG8DFNEVK www onsemi com 7 APPENDIX Unpopulated Boards Figure 5 Main Board Top View Figure 6 Main Board Bottom View Figure 7 DFN8 Daughter Board Top View Figure 8 DFN8 Daughter Board Bottom View ...

Page 8: ...NB3x6x1xxG8DFNEVK www onsemi com 8 OUTPUT TERMINATION HCSL CML LVPECL LVDS ...

Page 9: ... 8 2K EPAD must be part of GND_VDDO plane TP2_NP VDDO_0 1 VDDO_0 TP5_NP VDDO_1 1 C2 0 01uF_NP_Mount Resistor_0E VDDO_1 R26 0E_NP 1 2 R24 0E 1 2 PD C3 0 01uF_NP_Mount Resistor_0E M3 TP6_NP VDDO_2 1 VDDO_2 R17 0E_NP 1 2 OE0 M2 NTS2101P ON R16 0E 1 2 M5 M1 NTS2101P ON R19 0E_NP 1 2 OE1 R15 0E 1 2 M6 J32 1 2 3 2A 2E 2D 2C 2B VDDO_1 1C R2 50E 1 2 R18 0E_NP 1 2 R21 50E 1 2 OE2 R14 0E 1 2 CML VDDO_1 2C M...

Page 10: ...IO1 20 VCCIO2 31 VCCIO3 42 VCCIO4 56 VPLL 9 VPHY 4 AGND 10 VREGIN 50 VREGOUT 49 VCORE1 12 VCORE2 37 VCORE3 64 DM 7 DP 8 GND1 1 GND2 5 GND3 11 GND4 15 GND5 25 GND6 35 GND7 47 GND8 51 TEST 13 EECS 63 EECLK 62 EEDATA 61 REF 6 RESET 14 SUSPEND 36 PWREN 60 OSCI 2 OSCO 3 GPIOH7 34 GPIOH6 33 GPIOH5 32 GPIOH4 30 GPIOH3 29 GPIOH2 28 GPIOH1 27 GPIOH0 26 TH_PAD 65 USB_RST TP18 USB 5V 1 R118 0E 1 2 R55 10K 1 ...

Page 11: ...BEAD TP1 GND_VDDO 1 FB5 BEAD FB8 BEAD FB3 BEAD FB11 BEAD J19 1 2 3 thick trace thick trace 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 0E 1 2 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 0E 1 2 C22 2 2uF VDDO_EXT VTT GND4 VDDO_0 GND1 C...

Page 12: ...NB3x6x1xxG8DFNEVK www onsemi com 12 DFN8 Daughter Board Schematic Figure 12 DFN8 Daughter Board Schematic ...

Page 13: ...7R 0402 2 10 C39 C42 C47 4 7 mF C0402 DigiKey 490 5408 1 ND Murata GRM155R6 0J475ME87 D CAP CER 4 7UF 6 3V 20 X5R 0402 3 11 D1 LED_amber LED_0603 DigiKey P13488CT ND Panasonic LNJ414K82 RA 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 Op to Semicon ductors Inc LG L29K F2J1 24 Z LED SMARTLED 570NM GREEN 0603 6 13 D3 PACDN004S ...

Page 14: ...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 NTLJD3115P T1G 6 WDFN 2X2 DigiKey NTLJD3115PT 1GOSCT ND ON Semi NTLJD3115 PT1G MOSFET 2P CH 20V 2 3A 6 WDFN 1 31 Q11 Q12 Q13 Q14 Q15 Q16 Q17 Q18 NTA4153NT 1G sot 416 DigiKey NTA4153NT1 GOSCT ND ON Semi NTA4153NT 1G MOSFET N CH 20V 915MA SOT 416 8 32 R1 R2 R20 R21 R36 R40 R59 ...

Page 15: ...47KJCT 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 SDA01H1SB D DigiKey CKN10358 N D C K Components SDA01H1 SBD SWITCH DIP TAPE SEALED 1POS 24V 2 51 TP1 TP2 TP5 TP6 TP7 TP8 TP9 TP20 TP...

Page 16: ...TEK 1 Based on 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 1 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 5 67 To be used with these connectors J24 J25 J26 J27 J28 J19 ...

Page 17: ...s copyrights trade secrets and other intellectual property A listing of ON Semiconductor s product patent coverage may be accessed at www onsemi com site pdf Patent Marking pdf ON Semiconductor reserves the right to make changes without further notice to any products herein ON Semiconductor makes no warranty representation or guarantee regarding the suitability of its products for any particular p...

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