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MPC567XKIT516-PT

器件型号:MPC567XKIT516-PT
器件类别:嵌入式解决方案    工程工具    嵌入式开发工具    嵌入式处理器开发套件    开发板和工具包 - 其他处理器   
厂商名称:NXP(恩智浦)
厂商官网:https://www.nxp.com
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器件描述

开发板和工具包 - 其他处理器 Evaluation Kit for Qorivva MPC5674F/MPC5676R, XPC567XMB-PT Motherboard and MPC567XADAT-PT5 Adapter

参数
参数名称属性值
制造商NXP
产品种类开发板和工具包 - 其他处理器
发货限制Mouser目前不销售该产品。
工厂包装数量1
单位重量1 kg

文档预览

D O C - 0 0 4 7 2 - 0 1 0 ,
R E V
G
MPC567XADAT516
Demonstration Module Hardware User Guide
Applies to Freescale
MPC5674F & MPC5676R
Microcontrollers
Web Site:
www.axman.com
Support:
support@axman.com
M P C 5 6 7 X A D A T 5 1 6
U S E R G U I D E
M A R D C H
1 7 ,
2 0 1 1
CONTENTS
CAUTIONARY NOTES...............................................................................................................3
TERMINOLOGY .........................................................................................................................3
OVERVIEW ................................................................................................................................4
DEVICE ORIENTATION .............................................................................................................4
POWER SUPPLY.......................................................................................................................5
ANALOG SUPPLY ................................................................................................................ 5
OPTION JUMPERS ...................................................................................................................5
VDDEH_SEL – JP1 ............................................................................................................... 6
EXTAL – JP2 ......................................................................................................................... 6
OSC_EN - JP3 ...................................................................................................................... 6
SRAM_SEL – JP4 ................................................................................................................. 6
VDDSYN_EN– JP5 ............................................................................................................... 6
VDDREG_SEL– JP6 ............................................................................................................. 7
VSTBY_SEL– JP7 ................................................................................................................. 7
REGSEL– JP8 ....................................................................................................................... 7
REGCTL– JP9 ....................................................................................................................... 7
VDDSEL – JP10 / JP11 ......................................................................................................... 7
MDO OPTION HEADER – JP12 THRU JP27 ....................................................................... 8
SRAM .........................................................................................................................................8
DEVELOPMENT PORTS ...........................................................................................................9
ADAT516 POWER SEQUENCE ........................................................................................... 9
NEXUS PORT ..................................................................................................................... 10
JTAG PORT ........................................................................................................................ 11
FIGURES
Figure 1: Device Orientation ......................................................................................................4
Figure 2: SRAM Options .............................................................................................................8
Figure 3: NEXUS Port .............................................................................................................10
Figure 4: JTAG Port..................................................................................................................11
REVISION
Date
November 3, 2008
October 12, 2009
January 22, 2010
June 4, 2010
January 11, 2011
March 16, 2011
March 17, 2011
Rev
A
B
C
D
E
F
G
Comments
Initial Release – Applies to Rev A only.
Updated for Rev B. Updated figure and page numbers
st
Corrected XTAL frequency, updated 1 page footer
Corrected JP designators and updated configuration text. Added SRAM
section
Updated for use with MPC5676R MCU
Added device orientation diagram. Updated development port
description
Corrected NEXUS connector pin-out. Updated MDO Option header
section
2
M P C 5 6 7 X A D A T 5 1 6
U S E R G U I D E
M A R D C H
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CAUTIONARY NOTES
1) Electrostatic Discharge (ESD) prevention measures should be applied whenever handling
this product. ESD damage is not a warranty repair item.
2) Axiom Manufacturing reserves the right to make changes without further notice to any
products to improve reliability, function or design. Axiom Manufacturing does not assume
any liability arising out of the application or use of any product or circuit described herein;
neither does it convey any license under patent rights or the rights of others.
3) EMC Information on the MPC567XADAT516 board:
a) This product as shipped from the factory with associated power supplies and cables,
has been tested and meets with requirements of CE and the FCC as a CLASS A
product.
b) This product is designed and intended for use as a development platform for hardware
or software in an educational or professional laboratory.
c) In a domestic environment this product may cause radio interference in which case the
user may be required to take adequate prevention measures.
d) Attaching additional wiring to this product or modifying the products operation from the
factory default as shipped may effect its performance and also cause interference with
other apparatus in the immediate vicinity. If such interference is detected, suitable
mitigating measures should be taken.
TERMINOLOGY
This development board applies option selection jumpers. Terminology for application of the
option jumpers is as follows:
Jumper on, in, or installed = jumper is a plastic shunt that fits across 2 pins and the
shunt is installed so that the 2 pins are connected with the shunt.
Jumper off, out, or idle = jumper or shunt is installed so that only 1 pin holds the shunt,
no 2 pins are connected, or jumper is removed. It is recommended that the jumpers be
placed idle by installing on 1 pin so they will not be lost.
Cut-Trace – a circuit trace connection between component pads. The circuit trace may
be cut using a knife to break the default connection. To reconnect the circuit, simply
install a suitably sized 0-ohm resistor or attach a wire across the pads.
Signal names followed by an asterisk (*) denote active-low signals.
3
M P C 5 6 7 X A D A T 5 1 6
U S E R G U I D E
M A R D C H
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OVERVIEW
The MPC567XADAT516 (ADAT516) supports the MPC5674F and MPC5676R
microcontrollers in the 516BGA package. The ADAT516 is a daughter-card type module
which is designed to mount directly to the MPC567XEVBMB (EVBMB) via 4, low-profile stack
headers. This document details the hardware configuration only for the ADAT516. Refer to
the MPC5674 or the MPC5676 Reference Manual (RM) for use and configuration of different
MCU options.
DEVICE ORIENTATION
The ADAT416 module applies an open-top socket to allow the target device to be installed
and removed easily. However, the socket obscures the pin 1 marking showing device
orientation. Although present, the pin 1 marking on the socket is not readily visible. The figure
below illustrates the correct device orientation. The solid circle marks the target device pin 1
location.
Figure 1: Device Orientation
4
M P C 5 6 7 X A D A T 5 1 6
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POWER SUPPLY
Primary power to the ADAT516 is provided through the stack headers. Alternate power input
may be applied through the power input at location J5. Location J5 is designed to accept
3.5mm terminal block. This terminal block is not installed in the default configuration.
Alternate power input allows the ADAT516 to be used as a stand-alone development module.
The MCU VDD input is generated on-board using either a linear pass transistor at Q1 or a
switch-mode power supply regulator at Q2. Option headers JP8 (REGSEL) and JP9
(REGCTL) select either the linear regulator or the switch-mode regulator. Refer to the target
device Reference Manual for details on use and configuration of the Linear Regulator or the
SMPS.
CAUTION: Power to the EVBMB must be disconnected prior to installing the ADAT516.
Damage to the ADAT516 and EVBMB may otherwise occur.
Analog Supply
Analog voltage (+5VA) to the ADAT516 is provided from the EVBMB via the 4 board stack
headers. This voltage is not generated on the ADAT516 module. VRH_EN connects to +5VA
by default. A cut-trace, at CT6, enables this option by default and the jumper is not installed in
default configurations.
Analog voltage, +5VA, is not available with the module powered as a stand-alone module. A
test point at VRH allows the user to apply different analog voltage input if required. If used in
stand-alone mode, the user must apply alternate analog voltage input.
OPTION JUMPERS
The MPC567XADAT516 applies a socket to accommodate the target MCU. Because of this,
most option headers are configured for default operation with an embedded cut-trace on the
bottom layer. To modify operation of any option header, simply open the cut-trace and add a
jumper wire to select the desired option.
Rev C boards have all option headers installed with option jumpers set to default
configurations providing maximum configuration flexibility.
The following sections describe the functionality of each option jumper from a hardware
standpoint only. Refer to the MPC5674 Reference Manual for further details on use and
configuration.
5
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