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ON Semiconductor NB7V32MMNG User Manual

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NB7V32MMNGEVB
NB7V32MMNG
Evaluation Board
User's Manual
Introduction
ON Semiconductor has developed the QFN16EVB
evaluation board for its high-performance devices packaged
in the 16-pin QFN. This evaluation board was designed to
provide a flexible and convenient platform to quickly
evaluate, characterize and verify the operation of various
ON Semiconductor products. Many QFN16EVBs are
dedicated with a device already installed, and can be ordered
from www.onsemi.com at the specific device web page.
This evaluation board manual contains:
Information on 16-lead QFN Evaluation Board
Assembly Instructions
Appropriate Lab Setup
Bill of Materials
This user's manual provides detailed information on
board contents, layout and its use. It should be used in
conjunction with an appropriate ON Semiconductor device
datasheet located at www.onsemi.com. The datasheet
contains the technical device specifications.
Top View
© Semiconductor Components Industries, LLC, 2013
May, 2013 − Rev. 0
Figure 1. Top and Bottom View of the 16 QFN Evaluation Board
EVAL BOARD USER'S MANUAL
Board Layout
The QFN16 Evaluation Board provides a high bandwidth,
50 W
controlled
impedance
implemented in four layers. The first layer or primary trace
layer is 0.008" thick Rogers RO4003 material, and is
designed to have equal electrical length on all signal traces
from the device under test (DUT) pins to the SMA
connectors. The second layer is the 1.0 oz copper ground
plane and is primarily dedicated for the SMA connector
ground plane. FR4 dielectric material is placed between the
second and third layers and between third and fourth layers.
The third layer is also 1.0 oz copper plane. A portion of this
layer is designated for the device V
planes. The fourth layer is the secondary trace layer.
1
http://onsemi.com
environment
and DUTGND power
CC
Bottom View
Publication Order Number:
EVBUM2185/D
and
is

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Summary of Contents for ON Semiconductor NB7V32MMNG

  • Page 1 It should be used in The third layer is also 1.0 oz copper plane. A portion of this conjunction with an appropriate ON Semiconductor device layer is designated for the device V and DUTGND power datasheet located at www.onsemi.com.

  • Page 2: Silkscreen (Top Side)

    NB7V32MMNGEVB Figure 2. Enlarged Bottom View VEE/DUTGND SMA_GND Pin 12 Pin 1 Pin 11 Pin 2 DUT_GND Pin 10 Pin 3 Pin 9 Pin 4 Figure 3. Enlarged Bottom View of the Evaluation Board SILKSCREEN (TOP SIDE) LAYER 1 (TOP SIDE) 1 OZ ROGERS 4003 0.008 in LAYER 2 (GROUND PLANE P1) 1 OZ 0.062 ±...
  • Page 3 NB7V32MMNGEVB Top View Bottom View Figure 5. Evaluation Board Layout Evaluation Board Assembly Instructions confusion with the use of this board, the negative supply The QFN−16 evaluation board is designed for connector is labeled V /DUTGND. SMAGND is the characterizing devices in a 50 W laboratory environment ground for the SMA connectors and is not to be confused using high bandwidth equipment.
  • Page 4 NB7V32MMNGEVB CML Outputs Installing the SMA Connectors Likewise, CML outputs need to be terminated to V Each configuration indicates the number of SMA a 50 W resistor. If no internal resistors are provided on the connectors needed to populate an evaluation board for a device, 0402 chip resistor pads are provided on the bottom given device.
  • Page 5 NB7V32MMNGEVB NB7V32MMNGEVB ASSEMBLY Table 1. CONFIGURATION FOR DEVICE: NB7V32M Device Pin # Connector Wire NOTE: DUTGND/V = Exposed Pad and must be tied to DUTGND/V CONFIGURATIONS DUTGND/V Exposed Pad SMAGND Top View DUTGND/VEE Polarity of 22 mF: + C4 − + C2 −...
  • Page 6 NB7V32MMNGEVB NB7V32MMNGEVB TEST Power Supply /DUTGND Test Measuring Differential Equipment Signal Generator DUTGND/ Channel 1 Channel 2 ExPad SMAGND Trigger Trigger GND (0 V) DUTGND Power Supply 1. Connect appropriate power supplies to V /DUTGND, SMAGND, and ExPad (see Table 2). 2.
  • Page 7 0603 0.1 mF ±10% 0603C104KAT2A Chip Resistor Panasonic* 0402 50 W ±1% ERJ−2RKF49R9X http://www.panasonic.com Precision Thick Film Chip Resistor Evaluation Board ON Semiconductor QFN 16 Evaluation QFN16EVB http://www.onsemi.com Board Device Samples ON Semiconductor QFN 16 Package NB7V32MMNG http://www.onsemi.com Device *Components are available through most distributors, i.e.
  • Page 8 NB7V32MMNGEVB Top Layer Second Layer (SMA_GND Plane) Figure 9. Gerber Files http://onsemi.com...
  • Page 9 NB7V32MMNGEVB Third Layer (DUT_GND Trace) Bottom Layer Figure 10. Gerber Files http://onsemi.com...
  • Page 10 LIMITATIONS OF LIABILITY: ON Semiconductor shall not be liable for any special, consequential, incidental, indirect or punitive damages, including, but not limited to the costs of requalification, delay, loss of profits or goodwill, arising out of or in connection with the board, even if ON Semiconductor is advised of the possibility of such damages. In no event shall ON Semiconductor’s aggregate liability from any obligation arising out of or in connection with the board, under any theory of liability, exceed the purchase price paid for the board, if any.

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