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Motorola M9328MX1ADS Standard Edition, M9328MX1ESBP Professional Edition Application Development System User’s Manual
Below you will find brief information for Application Development System M9328MX1ADS Standard Edition, Application Development System M9328MX1ESBP Professional Edition. The M9328MX1ADS and M9328MX1ESBP boards are development tools that are designed to run software applications for DragonBall MX1 (MC9328MX1) microcontrollers. Both boards include an MC9328MX1 DragonBall MX1 MCU, 32-bit SyncFlash memory, 32-bit SDRAM, a USB interface, Ethernet controller, two UARTs, IrDA, a CD Quality DAC, and keypads. The Professional Edition includes Bluetooth and an image sensor. These boards are great for developing embedded systems with the DragonBall MX1 processor.
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User’s Manual
M9328MX1ADSUM/D
Rev 2
October 29, 2002
M9328MX1ADS
Application
Development System
User’s Manual
© Motorola, Inc., 2002
Important Notice to Users
While every effort has been made to ensure the accuracy of all information in this document, Motorola assumes no liability to any party for any loss or damage caused by errors or omissions or by statements of any kind in this document, its updates, supplements, or special editions, whether such errors are omissions or statements resulting from negligence, accident, or any other cause.
Motorola further assumes no liability arising out of the application or use of any information, product, or system described herein: nor any liability for incidental or consequential damages arising from the use of this document. Motorola disclaims all warranties regarding the information contained herein, whether expressed, implied, or statutory, including implied warranties of
merchantability or fitness for a particular purpose. Motorola makes no representation that the interconnection of products in the manner described herein will not infringe on existing or future patent rights, nor do the descriptions contained herein imply the granting or license to make, use or sell equipment constructed in accordance with this description.
Trademarks
This document includes these trademarks:
Motorola and the Motorola logo are registered trademarks of Motorola, Inc.
Windows is a registered trademark of Microsoft Corporation in the U.S. and other countries.
Intel is a registered trademark of Intel Corporation.
Motorola, Inc., is an Equal Opportunity / Affirmative Action Employer.
For an electronic copy of this book, visit Motorola’s web site at http://e-www.motorola.com/
© Motorola, Inc., 2002; All Rights Reserved
M9328MX1ADS Application Development System - Rev 2
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User’s Manual
MOTOROLA
M9328MX1ADS — Rev. 2
MOTOROLA
Table Of Contents
Section 1 General Information
System and User Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
MX1ADS Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Section 2 Configuration and Operation
Configuring Board Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Peripheral Selection Switch (S1) . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Mode Switch (S22) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Functional Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
On Board Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Memory Map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
USB Interface. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
UART and IrDA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
CD Quality DAC and Analog I/O . . . . . . . . . . . . . . . . . . . . . . . . . 18
Keypads and IO Expander . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Led Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Using The Board Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Add On Module Connections and Usage . . . . . . . . . . . . . . . . . . . . . . 25
Using the TFT LCD Display Panel. . . . . . . . . . . . . . . . . . . . . . . . 25
Using a SODIMM Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Using a SIM, SD/MMC, or Memory Stick Card . . . . . . . . . . . . . . 26
Using the BlueTooth Daughter Board . . . . . . . . . . . . . . . . . . . . . . 27
Using the Image Sensor daughter boards. . . . . . . . . . . . . . . . . . . . 27
Section 3 Support Information
S.O.DIMM Socket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
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UART Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
MultiICE Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
Ethernet Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
USB Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
BlueTooth Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
MultiTrace Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
LCD Panel Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
SIM Card Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
Memory Stick Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
SD/MMC Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
Image Sensor Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
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List of Figures
1-1 M9328MX1ADS Application Development System . . . . . . . . . . . . . 6
2-3 Functional Block Diagram of MX1ADS . . . . . . . . . . . . . . . . . . . . . . 13
2-5 SDRAM Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2-7 UARTs and IrDA Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
2-9 Keypads and I/O Expander Interface. . . . . . . . . . . . . . . . . . . . . . . . . 21
2-10 Software Controlled Peripheral Enables . . . . . . . . . . . . . . . . . . . . . . 23
3-1 SODIMM Connector J2 Pin Assignments. . . . . . . . . . . . . . . . . . . . . 31
3-2 Connector P11 (UART1), P12 (UART2) Pin Assignments . . . . . . . 34
3-3 MultiICE Connector P24 Pin Assignments . . . . . . . . . . . . . . . . . . . . 35
3-4 Ethernet Connector J1 Pin Assignments . . . . . . . . . . . . . . . . . . . . . . 36
3-5 USB Connector P10 Pin Assignments. . . . . . . . . . . . . . . . . . . . . . . . 36
3-6 BlueTooth Connector P9 Pin Assignments . . . . . . . . . . . . . . . . . . . . 37
3-7 MultiTrace Connector P27 Pin Assignments. . . . . . . . . . . . . . . . . . . 39
3-8 LCD Panel Connector P8 Pin Assignments. . . . . . . . . . . . . . . . . . . . 41
3-9 SIM Card Connector P3 Pin Assignments. . . . . . . . . . . . . . . . . . . . . 42
3-10 Memory Stick Connector P5 Pin Assignments . . . . . . . . . . . . . . . . . 43
3-11 SD/MMC Connector P2 Pin Assignments. . . . . . . . . . . . . . . . . . . . . 44
3-12 Connectors P19 and P20 Pin Assignments . . . . . . . . . . . . . . . . . . . . 45
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List of Tables
1-1 Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
2-1 Component Configuration Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
2-2 S1 Subswitch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
2-3 Boot Mode Subswitch Settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
2-4 Subswitch S22-5, S22-6 Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
2-5 M9328MX1ADS Memory Map . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
2-7 Audio Header JP3 Signal Descriptions . . . . . . . . . . . . . . . . . . . . . . . 19
2-8 Audio Header JP4 Signal Descriptions . . . . . . . . . . . . . . . . . . . . . . . 20
2-9 Audio Header JP5 Signal Descriptions . . . . . . . . . . . . . . . . . . . . . . . 20
2-10 Keypad I/O Expander Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
2-11 I/O Expander to Peripherals (U42) . . . . . . . . . . . . . . . . . . . . . . . . . . 22
2-12 Function of LED Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
2-13 MX1ADS Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
3-1 SODIMM Connector J2 Signal Descriptions . . . . . . . . . . . . . . . . . . 31
3-2 Connector P11 (UART1), P12 (UART2) Signal Descriptions . . . . . 34
3-3 MultiICE Connector P24 Signal Descriptions. . . . . . . . . . . . . . . . . . 35
3-4 Ethernet Connector J1 Signal Descriptions . . . . . . . . . . . . . . . . . . . . 36
3-5 USB Connector P10 Signal Descriptions . . . . . . . . . . . . . . . . . . . . . 36
3-6 BlueTooth Connector P9 Signal Descriptions . . . . . . . . . . . . . . . . . . 38
3-7 MultiTrace Connector P27 Signal Descriptions . . . . . . . . . . . . . . . . 39
3-8 LCD Panel Connector P8 Signal Descriptions . . . . . . . . . . . . . . . . . 41
3-9 SIM Card Connector P3 Signal Descriptions . . . . . . . . . . . . . . . . . . 42
3-10 Memory Stick Connector P5 Signal Descriptions . . . . . . . . . . . . . . . 43
3-11 SD/MMC Connector P2 Signal Descriptions . . . . . . . . . . . . . . . . . . 44
3-12 Expansion Connector P19 Signal Description . . . . . . . . . . . . . . . . . . 45
3-13 Image Sensor Connector P20 Signal Description . . . . . . . . . . . . . . . . 47
User’s Manual
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General Information
Description
User’s Manual — M9328MX1ADS
Section 1 General Information
1.1 Description
This user’s manual explains connection and operation of:
• The Motorola M9328MX1ADS DragonBall MX1 Application
Development System (ADS) Standard Edition
• The Motorola M9328MX1ESBP DragonBall MX1 Application
Development System (ADS) Professional Edition
Both boards are development tools which are designed to run software applications designed for DragonBall MX1 (MC9328MX1) microcontroller unit (MCU).
The M9328MX1ADS Standard Edition includes more than 15 interface ports or sockets that support application software, target-board debugging, or optional extra memory. It comes with a separate LCD display panel which includes the model LQ035Q2DD54 TFT LCD display from Sharp Corporation.
The M9328MX1ESBP Professional Edition has the same features as the
Standard Edition but adds a MMM7400 Bluetooth RF module and an image sensor board to the system.
1.2 Features
MX1ADS and MX1ESBP features include:
• MC9328MX1 DragonBall MX1 MCU.
• Two clock-source crystals: 32 kilohertz and 16 megahertz.
• Voltage regulator that steps down the 3.0-volt VCC to the 1.8-volt
QVDD core voltage.
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• Two 4-megabyte
×
16-bit SyncFlash memory devices, configured as one
32-bit device.
• Two 16-megabyte
×
16-bit SDRAM devices, configured as one 32-bit device.
• SODIMM connector for SDRAM or EIM memory expansion.
• Connectors for SD/MCC, MemoryStick, and SIM memory cards.
• Two UART ports, each with RS232 transceiver and DB9 connector.
• An IrDA transceiver that conforms to Specification 1.0 of the Infra-red
Data Association.
• PDIUSBP11A USB transceiver and series B USB connector
• Separate LCD panel assembly with a ribbon cable that connects to the main board and interfaces directly with the MC9328MX1ADS.
• Bluetooth RF module connector. (The MC9328MX1ESBP includes a
Bluetooth MMM7400 card.)
• CMOS Image Sensor (CSI) Connector. (The MC9328MX1ESBP includes a compatible image-sensing components.)
• MultiICE and MultiTrace debug support connectors.
• DAC3550A CD Quality DAC that interfaces with SSI. System support includes two clock-source crystal oscillators and a 3.5mm speaker/headphone jack.
• Cirrus Logic CS8900A Ethernet controller, with a RJ-45 connector for connecting to a system hub.
• Two RJ-45 Ethernet cables, network and crossover (MC9328MX1ESBP only).
• Microphone/voice interface amplifier circuity, with 3.5mm voice out and microphone in jacks.
• 32
×
3-pin DIN expansion connector with most MX1 I/O signals.
• LED indicators for power, external bus activity, Bluetooth data transfer,
Ethernet activity, and two LEDs for user defined status indiction.
• Universal power supply with 3.0-volt output @1500ma.
• PC compatible USB cable.
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General Information
System and User Requirements
• PC compatible RS232 serial cable.
• Metrowerks CodeWarrior
IDE software (evaluation copy).
1.3 System and User Requirements
To use an M9328MX1ADS Application Development System, you need:
• An IBM PC or compatible computer that has:
– a Windows
98, Windows ME
, Windows XP
, Windows 2000, or Windows NT
(version 4.0) operating system.
– a parallel port if you are using a MultiICE device
or
– an RS-232 serial port, capable of operation at 9600 to 115200 bits per second operation, if you are using MetroTRK.
• A
+
3.0-volt-to +3.3-volt power supply, at 1500mA, with a 2mm female
(inside positive) power connector (included).
• An RS-232 cable (DB9 male-female, included) for connecting to the internal UART while using bootstrap mode or Metrowerks’ MetroTRK.
• Hyperterminal (or a comparable terminal-emulation program) for downloading the MetroTRK image to MX1ADS SyncFlash memory.
CAUTION:
Never supply more than +3.3-volts power to your MX1ADS. Doing so could damage board components.
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General Information
1.4 MX1ADS Diagram
Figure 1-1 shows the connectors and other major parts of the M9328MX1ADS.
UART2
P12 P23 SW2
U12
S17
0 1 2 3
4 5 6 7
8 9 10 11
12 13 14 15
KEYPAD
P3
SIM
UART1
P11
RJ-45
LED7, 8
SW1
RESET
J1
MultiTrace P27
USB
DAC
P26
P10
P24
MultiICE
VOC MIC
P14 P15
P9
VR75
VR74
JP3 JP5 JP4
S1
J2 SDRAM
U27
S22
SyncFlash
U28
U1
MX1
SyncFlash
U26
SDRAM
U25
LED5, 4, 6, 3, 2
P19
EXPANSION IMAGE SENSOR
P20
Figure 1-1 M9328MX1ADS Application Development System
P5
MEMORY
STICK
P2
MMC
(Bottom of board)
P8
Important board components are:
• U1 — DragonBall MX1 MCU
• P2 — SD/MCC connector (on bottom of board)
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MX1ADS Diagram
• P3 — SIM card connector
• P5 — Memory Stick connector
• P8 — LCD/touch panel connector
• P9 — BlueTooth connector
• P10 — USB connector
• P11, P12 — RS232 connectors to on chip UARTs
• P14, P15, P26 — voice out, microphone in, and DAC out connectors
• P19 — I/O expansion connector
• P20 — image sensor connector
• P23 — 3.0-volt input power connector
• P24 — ARM MultiICE connector
• P27 — ARM MutliTrace connector
• J1 — RJ-45 Ethernet connector
• J2 — Custom SODIMM memory expansion connector
• S1 — peripherals enable switches
• S5 - S16, S18 - S21 — 16 push button keypad keys
• S17 — General function push button switch
• S22 — boot and big/little endian mode select switch
• SW1 — reset switch
• SW2 — power switch
• LED2 and LED3 — general-purpose LEDs (yellow)
• LED4 — external bus activity LED (red)
• LED5 — power LED (green)
• LED6 — Bluetooth activity LED (yellow)
• LED7, LED8 — Ethernet activity LEDs (green, orange)
• U12 — IrDA transceiver
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General Information
1.5 Specifications
Characteristic
Clock speed
Ports
Temperature
operating
storage
Relative humidity
Power requirements
Dimensions
Table 1-1 lists M9328MX1ADS specifications
Table 1-1 Specifications
Specifications
96/48 MegaHertz
10Base-T (RJ-45), RS-232 serial
-10° to +50° C
-40° to +85° C
0 to 90% (noncondensing)
3.0V — 3.3 VDC at 1 A
7.28 x 6.0 inches (18.5 x 15.3centimeters)
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User’s Manual — M9328MX1ADS
Section 2 Configuration and Operation
2.1 Introduction
This section consists of configuration information, connection descriptions, and other operational information that may be useful in your development activities.
2.2 Configuring Board Components
Table 2-1 is a summary of configuration settings; subsections 2.2.1 through
2.2.2 give additional information.
Component
System Power
Switch, SW2
Table 2-1 Component Configuration Settings
Position Effect
Move this switch to the ON position to enable the power source connected to P23 to power the system.
SW2
BRD
EDGE
OFF ON
Factory setting is OFF.
Push to reset the MX1ADS.
System Reset Switch,
SW1
Peripheral Selection
Switch, S1
SW1
S1 Enables UART1 transceiver, UART2 transceiver,and buzzer.
Disables IrDA module.
Factory setting is shown.
Subsection 2.2.1 explains other settings for this switch.
S1
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Configuration and Operation
Table 2-1 Component Configuration Settings (Continued)
Component
Mode Switch, S22
Position
S22
Effect
Configures 32-bit SyncFlash as the boot device, configures
Little Endian mode, and Normal mode operation.
Factory setting is shown
Subsection 2.2.2 explains other settings for this switch.
S22
2.2.1 Peripheral Selection Switch (S1)
Switch S1 enables or disables the UART transceivers, the IRDA buffers, and the buzzer.
Table 2-2 lists the functionality of these subswitches.
.
Table 2-2 S1 Subswitch Settings
Settin
Subswitch, Function
S1-1, UART1 transceiver ON g Effect
Forces the UART1 transceiver to be enabled.
OFF UART1_EN bit of U42 controls the UART1 transceiver. Active low.*
S1-2, UART2 transceiver ON Forces the UART2 transceiver to be enabled.**.
S1-3, IrDA module
S1-4, LCD
S1-5, Buzzer
OFF UART2_EN bit of U42 controls the UART2 transceiver. Active low.*
ON Forces the IrDA module buffers to be enabled.**
OFF IrDA_EN bit of U42 controls the IrDA buffers.
Active low.*
— No effect
S1-6, PEN_CS
S1-7, PEN_IRQ
S1-8
ON Enables the buzzer to be controlled by the
PWMO output.
OFF PMWO is disconnected from the buzzer circuit.
—
—
—
No effect
No effect
No effect
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Configuration and Operation
Configuring Board Components
* Setting the associated bit high (power on reset default) disables the interface.
Setting the bit low will enable the interface.
** Warning: Do not enable UART2 and IRDA at the same time. Neither circuit will function properly and circuit damage could result.
Figure 2-1 shows a possible configuration: the UART1 transceiver and the
IrDA module enabled; the UART2 transceiver and buzzer disabled..
UART1
UART2
IrDA
LCD
BUZZER
PEN_CS
PEN_IRQ
S1
Figure 2-1 Switch S1
2.2.2 Mode Switch (S22)
Switch S22 configures boot mode, configures endian state, and enables test mode. These switches only take effect on power up or after a reset is applied.
Table 2-3 lists settings for the boot-mode subswitches, S22-1 through S22-4.
Table 2-4 lists the settings for subswitches S22-5 and S22-6.
.
Table 2-3 Boot Mode Subswitch Settings
Boot Mode, Device
Internal bootstrap ROM
CS0, 32-bit
CS0, 16-bit, D[15—0]
CS0, 16-bit, D[31—16]
CS0, 8-bit, D[7—0]
CS3, 32-bit SyncFlash
CS3, 16-bit SyncFlash, D[15—0]
S22-1 S22-2 S22-3 S22-4
ON ON ON ON
ON
OFF
OFF
ON
OFF
OFF
ON
ON
ON
OFF
ON
OFF
ON
OFF
OFF
ON
OFF
ON
ON
ON
ON
ON
ON
ON
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Configuration and Operation
Table 2-4 Subswitch S22-5, S22-6 Settings
Subswitch,
Function
S22-5, Endian mode
ON
Setting
OFF
S22-6, CPU Mode ON
OFF
Effect
Configures Little Endian mode.
Configures Big Endian mode.
Selects Normal mode.
Selects CPU Test mode.
Warning:
Do not select CPU Test mode. Nothing good will come of it.
Figure 2-2 shows a possible configuration:
• Subswitches S22-1 through S22-4 configure the boot mode to be CS0,
8-bit, D[7] through D[0].
• Subswitch S22-5 configures Little Endian mode.
• Subswitch S22-6 selects Normal mode.
BOOT MODE
ENDIAN MODE
TEST MODE
S22
Figure 2-2 Switch S22
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Configuration and Operation
Operation
2.3 Operation
2.3.1 Functional Block Diagram
USB
Type B
USB
Transceiver
SODIMM Socket LCD and Touch Panel
IRDA
COM1
COM2
UART and
IrDA
Interface
Ethernet
Controller
To MultiTrace
To MultiICE
17x2-pin
Connector
Gilliam
Single
Tone
Generator
PWMO
MC9328MX1
LCD SIGNALS
I
2
C BUS
Codec
2.5mm
Phone Jack
Headphone
Voice Out
MIC In
SD/MMC
MMC/SD
SIGNALS
SIM Card Connector
Reset
Circuit
RESET
Bluetooth Connector
I
2
C
IO Expander
Keypad
Image Sensor Connector
RESET
Expansion Connector
GND
Figure 2-3 Functional Block Diagram of MX1ADS
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Configuration and Operation
2.3.2 On Board Memory
Figure 2-4 and Figure 2-5 show the interface of the on-board
memory. The ADS is equipped with 4Mx32-bit SyncFlash and
16Mx32-bit SDRAM. The chip select CS3 (CSD0) and CS2
(CSD1) are used for SyncFlash and SDRAM chip select respectively.
V
CC
CS3
SDCE
SDCLK
RAS
CAS
SDWE
RP
MA1..11
BA0
BA1
BA2
DQM0
DQM1
D0..15
DQM2
DQM3
D16..31
4MX16-Bit SyncFlash
CS
CKE
CLK
RAS
CAS
WE
RP
A0..10
A11
BA0
BA1
LDQM
UDQM
D0..15
LDQM
UDQM
D0..15
Figure 2-4 SyncFlash Interface
4MX16-Bit SyncFlash
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Configuration and Operation
Operation
V
CC
16MX16-Bit SDRAM
CS2
SDCE
SDCLK
RAS
CAS
SDWE
MA1..11
BA0
BA1
BA2
DQM0
DQM1
D0..15
DQM2
DQM3
D16..31
CS
CKE
CLK
RAS
CAS
WE
A0..10
A11
BA0
BA1
LDQM
UDQM
D0..15
LDQM
UDQM
D0..15
16MX16-Bit SDRAM
Figure 2-5 SDRAM Interface
2.3.3 Memory Map
Table 2-5 represents the memory mapping for the external peripherals on the
M9328MX1ADS board. Note the Sync Flash and the Ethernet Controller have repeated memory blocks due to the fact they do not take up the entire address space of the associated chip select. Software can access the same physical memory location at several different addresses. For instance SDRAM uses the entire 64 MB address space allowed for CSD0. The Sync Flash occupies only
16 MBs of the 64 MB space available to CSD1, so its memory is repeated 4 times. CS4 covers 16 MB allowing many repetitions of the Ethernet chip’s internal registers.
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Configuration and Operation
.
Peripheral
SDRAM
SYNC FLASH
Ethernet
Controller
Internal SRAM
Table 2-5 M9328MX1ADS Memory Map
Chip
Select
CSD0
CSD1
CS4
Address Range (HEX)
0x0800 0000 to 0x0BFF FFFF
0x0C00 0000 to 0x0FFF FFFF
0x1500 0000 to 0x15FF FFFF
NA 0x0030 0000 to 0x0031 FFFF
Act Mem Size
64MB
16MB
16 BYTES
128 KB
2.3.4 USB Interface
The USB Device Module of the MC9328MX1 interfaces the with a
Phillips USB transceiver, PDIUSBP11A, connected to a USB type
B connector, P10. For details on the operation of USB interface,
please refer to MC9328MX1 data sheet. Figure 2-6 illustrates the
USB interface connection.
MC9328MX1
USB Device
PDIUSBP11A
D-
D+
V
CC
USB Type B Connector
Figure 2-6 USB Interface
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MOTOROLA
Configuration and Operation
Operation
2.3.5 UART and IrDA
Figure 2-7 shows how the UART and the IrDA circuits are connected.
TXD1
RXD1
RTS1
CTS1
TXD2
RXD2
RTS2
CTS2
RS232 Transceiver
J4
UART1
V
CC
EN
RS232 Transceiver
GND
S1-1
Software Enable via I/O expander
J5
UART2
V
CC
EN
GND
S1-2
Software Enable via I/O expander
Buffer
EN
EN
IRDA
V
CC
GND
S1-4
Software Enable via I/O expander
Figure 2-7 UARTs and IrDA Interface
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Configuration and Operation
2.3.6 Ethernet
The M9328MX1ADS is equipped with Cirrus Logic CS8900A
Crystal LAN ISA Ethernet Controller. The CS8900A has 10BaseT transmit and receive filters and can interface with the M9328MX1.
The CS8900A is operating in I/O mode. Figure 2-8 shows an
overview of the Ethernet interface.
MC9328MX1
A1..3
D0..16
CS4
OE
WE
EB3
IRQ (PTC17)
V
CC
CS8900A
SA8
SA9
SA0
SA4..7
SA10..19
SA1..3
D0..16
AEN
IOR
IOW
SBHE
INTRQ0
CHIPSEL
Isolation
Transformer
RJ45 Connector
Figure 2-8 Ethernet Interface
2.3.7 CD Quality DAC and Analog I/O
The M9328MX1ADS is equipped with Micronas Stereo Audio
DAC. The DAC3350A, U32, is controlled by the MX1 which sends the DAC digital audio data via the I
2
C bus. The I
2
C slave address of the DAC3350A is 0x9A.
The DAC also provides volume control and a headphone amplifier output. This amplifier is connected to the P26 audio connector. A filtered low level audio output is connected to the JP3 header.
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Configuration and Operation
Operation
The mixing of external analog audio sources to the converted DAC signal is supported. These signals can be input at the JP4 and JP5 headers. Additionally the voice out signal from the MX1 is connected to the AUX1 input of the DAC3350A. This signal is also amplified and driven to a second headphone connector, P14.
The ADS also provides a microphone connector at P15. This input is suitable for dynamic microphones only. The microphone input signal level can be varied by VR74. The conditioned signal is then fed to the MIP input of the MX1.
Table 2-6 is a list of the audio connectors. All audio jacks are
standard 3.5mm stereo connectors. Table 2-7 through Table 2-9
describe the header pin outs.
Table 2-6 Audio Connectors
Connector
P26
P14
P15
Descriptions
Headphone jack for
DAC3350A audio out.
Headphone jack for MX1
Voice Out
Dynamic microphone input jack
Pin
1
2,3
4
Table 2-7 Audio Header JP3 Signal Descriptions
Signal Mnemonic
FINR
AGND
FINL
Filtered op amp output right, line out
Analog Ground
Filtered op amp output left, line out
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Configuration and Operation
Pin
1
2,3
4
Pin
1
2,3
4
Table 2-8 Audio Header JP4 Signal Descriptions
Signal Mnemonic
AUX1R
AGND
AUX1L
Auxiliary Input 1, right channel*
Analog Ground
Auxiliary Input 1, left channel*
*
Note:
The voice output from the MX1 also connects to both
AUX1 channels causing them to be shorted.
Remove zero ohm resistors R142 and R141 to break this connection.
Table 2-9 Audio Header JP5 Signal Descriptions
Signal Mnemonic
AUX2R
AGND
AUX2L
Auxiliary Input 2, right channel
Analog Ground
Auxiliary Input 2, left channel
For the details on the operation of DAC3550A, please refer to its data sheet. The data sheet is available on the web: http://www.micronas.com/
2.3.8 Keypads and IO Expander
The M9328MX1ADS is equipped with two Phillips PCF8575 I/O expanders.
One is for the keypad array and the other is for peripheral control. The keypad array consist of a matrix of momentary push button switches mounted directly
to the ADS board. Figure 2-9 and Table 2-10 shows the interface of the I/O
expander to the keypads. The read slave address is 0x49. The PCF8575 can be used to generated an interrupt whenever a key is pressed or released. The interrupt signal is connected to the SIM_PD signal of the DBMX1 which should be configured as GPIO, PB15. There is an additional push button switch, S17, that is connected to the SPI_RDY signal of the DBMX1. That pin should be configured as GPIO, PC13, to use it with S17. When any switch is depressed it will cause a low (zero) to appear at the associated input pin. These switches have no hardware debounce so that function must be handled by the software.
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Configuration and Operation
Operation
Table 2-11 and Figure 2-10 shows the interface to software controlled periph-
eral enables. Peripherals can be enable or disable by programming the I/O expander. This depends on the state of the associated enable switch (S1) which can override software control. The write slave address is 0x44 and the read address is 0x45.
The PCF8575 consists of a 16-bit quasi-bidirectional port and an I
2
C-bus interface. On power up all pins are configured as inputs. A non power up reset has no effect on the PCF8575 which communicates with the MC9328MX1 through the I
2
C interface. For the details on the operation of PCF8575, please refer to its data sheet. The data sheet is available on the web: http://www.semiconductors.philips.com
MC9328MX1
I
2
C
PCF8575
U33
I
2
C
Keypads
SIM_PD INT
I/O
Address assignment resistors
A[0..2]
I
2
C Slave Address 0x48
Figure 2-9 Keypads and I/O Expander Interface
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Configuration and Operation
Table 2-10 Keypad I/O Expander Interface
I/O Expander
Port
Key Read
I/O Expander
Port
Key Read
P04
P05
P06
P07
P00
P01
P02
P03
Key 0 / S8
Key 1 / S7
Key 2 / S6
Key 3 / S5
Key 4 / S12
Key 5 / S11
Key 6 / S10
Key 7 / S9
P14
P15
P16
P17
P10
P11
P12
P13
Key 8 / S16
Key 9 / S15
Key 10 / S14
Key 11 / S13
Key 12 / S21
Key 13 / S20
Key 14 / S19
Key 15 / S18
Table 2-11 I/O Expander to Peripherals (U42)
I/O Expander Port
P00
P01
P02
P03
P04
P05,P06,P07,
P12-P17
P10
P11
Mnemonic
UART1_EN
UART2_EN*
IrDA_EN*
LCD_ON
BTRF_EN
NC
SD_WP
SD_CD
Signal
UART1 enable
UART2 enable*
IrDA enable*
Not used (reserved)
Not used (reserved)
NO CONNECTION
Secure Data Write Protect
Secure Data Card Detect
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MOTOROLA
Configuration and Operation
Operation
MC9328MX1
I
2
C
SIM_PD
I
PCF8575
U42
2
C
INT
P00
P01
P02
P03
P04
UART1_EN
UART2_EN
IrDA_EN
LCD_EN
BTRF_EN
Address assignment resistors
A[0..2]
I
2
C Slave Address 0x44
Figure 2-10 Software Controlled Peripheral Enables
2.3.9 Led Indicators
Table 2-12 lists the meanings of the MX1ADS LED indicators.
Reference #
LED2
LED3
LED4
LED5
LED6
LED7
LED8
User’s Manual
MOTOROLA
Color
Yellow
Yellow
Red
Green
Yellow
Green
Orange
Table 2-12 Function of LED Indicators
Name
PA2
PA23
EXT BUS
PWR
BTA
ACTIVE
LINK
Function
User status controlled by PA2*
User status controlled by PA23*
Blinking indicates external bus activity
Power is applied to the system with right polarity
Blinking indicates Bluetooth activity
Blinking indicates LAN Activity
Link good or host controlled output 0
* A logic high level at the controlling pin will turn on the LED. A logic low turns it off. The schematic shows LED2 connected to PWMO and LED3 connected to CS5 which are alternate functions for PA2 and PA23.
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M9328MX1ADS - Rev 2
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Configuration and Operation
2.4 Using The Board Connectors
Table 2-13 lists the MX1ADS connectors, explaining their function, and any
special instructions for using the connector. Figure 1-1 shows the connector
locations on the board along with their reference designators.
Connector
J1
J2
JP3
JP4
JP5
P2
P3
P5
P8
P9
Table 2-13 MX1ADS Connectors
Purpose
Ethernet
SODIMM
FOUTR, FOUTL
AUX1R, AUX1L,
Comments
Standard Ethernet connector. A cable for direct network and one for crossover connections (direct to a PC) have been provided in the m9328MX1ESBP Professional Edition.
Slide SODIMM card into the connector until it snaps into place. Not compatible with off the shelf DIMM modules.
Filtered output of right and left channels from the
DAC3550A .
Auxiliary audio input channel 1 with left and right stereo inputs. Compatible with low level outputs of most audio electronics.
AUX2R, AUX2L
SD/MMC
Auxiliary audio input channel 2 with left and right stereo inputs. Compatible with low level outputs of most audio electronics.
Connector is on bottom of board, directly below the P5 memory stick connector. Slide the MMC unit into the connector until it snaps into place. Shares signals with the
Memory Stick card interface.
SIM
Memory Stick
LCD panel
Unsnap latch, swing lid up. Slide SIM card inside, matching alignment of contacts at the connector base. Close the lid and push down to latch.
Slide the memory stick into the connector until it snaps into place. Shares signals with the SD/MMC card interface.
Connect LCD ribbon cable between this connector and the corresponding connector of the LCD display panel, J11.
BlueTooth module Connect a compatible Bluetooth daughter board into this connector. A MMM7400 Bluetooth module is included in the
M9328MX1ESBP kit.
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Configuration and Operation
Add On Module Connections and Usage
P15
P19
P20
P23
P24
P26
P27
Table 2-13 MX1ADS Connectors (Continued)
Connector
P10
P11
P12
P14
Purpose
USB
UART1
UART2
Voice Out
Microphone
Expansion
Image sensor
Power
MultiICE
Headphone
MultiTrace
Comments
Standard USB connector.
Standard DB9 connector set up for DCE operation.
Standard DB9 connector set up for DCE operation.
Standard 3.5 mm connector for stereo audio.This is the output of the amplified voice out from the MC9328MX1 suitable for use with standard headphones with a 16 to 32 ohms impedance.
Standard 3.5 mm connector for stereo audio. Use only dynamic microphones with a 200 to 600 ohms impedance.
Standard 48 pin, three row, male DIN connectors. Can connect directly or be cabled to a custom circuit board.
Connect image-sensor daughter board to this connector, then connect ribbon cable and lens board to the daughter board.
Plug the 3-volt power-supply jack end into this connector.
Standard ARM MultiICE connector.*
Standard 3.5 mm connector for stereo audio. This is the amplified stereo output of the DAC3550A . Use headphones with a 16 to 32 ohms impedance.
Standard ARM MultiTrace connector.*
* For information on ARM supplied devices that are compatible with these connectors please visit ARM’s web site at: http://www.arm.com
2.5 Add On Module Connections and Usage
2.5.1 Using the TFT LCD Display Panel
Your MX1ADS and MX1ESBP come equipped with a touch control enabled
TFT (Thin Film Transistor) LCD display assembly. The TFT LCD component is from Sharp Corporation, model number LQ035Q2DD54. A detailed specification has been included on the documentation CD that came with your
ADS.
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Configuration and Operation
To begin using your MX1ADS LCD module you must connect the 34 conductor ribbon cable (RE11057C) that came with your MX1ADS between connectors
J11 on the LCD module and P8 on the MX1ADS main board.
Warning: Be sure input power to the main board is disconnected or switched off before the LCD module is connected. Connecting the module with power applied could damage the LCD module and/or the main board.
Your TFT LCD module has two variable resistors that allow users to vary the contrast, sometimes described as view angle, and the brightness of the FL backlight. Adjustment of VR1 will change the contrast and VR4 controls the backlight brightness. These potentiometers are recessed below the Plexiglas cover. You will need to use a suitable flat head or phillips head screwdriver to adjust them. This may be done with power applied but caution is advised when using a metal tool. A plastic bladed tools is recommend. While these controls were set at the factory, adjustment may be required to suit the user’s preferences.
2.5.2 Using a SODIMM Card
This connector provide a way to add new circuit boards that may be developed in the future. Users can also develop compatible DIMM cards as well.
Caution should be used when developing such boards to avoid addressing conflicts with peripherals that already exits on the main board.
Warning: To avoid circuit damage, do not plug in SODIMM cards with power applied to the board.
2.5.3 Using a SIM, SD/MMC, or Memory Stick Card
The users must obtain their own compatible cards for use with these connectors.
Please note the power is connected to VCC which is 3.0-volts when using the power supply provide with your kit.
Warning: To avoid circuit damage, do not plug in SIM, SD/MMC, or Memory
Stick cards with power applied to the board.
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Configuration and Operation
Add On Module Connections and Usage
2.5.4 Using the BlueTooth Daughter Board
This connector, P9, comes configured to operate directly with the Motorola
MMM7400 Bluetooth RF module that is included in the M9328MX1ESBP.
There are zero ohm resistor components that may be removed and/or added to change what signals are connected. This can be used to adapt the connector to other RF modules from other vendors. Software to control this interface using the MMM7400 may be found at the following web site:
http://www.motorola.com/dragonball
Warning: To avoid circuit damage, do not plug in a Bluetooth module with power applied to the board.
2.5.5 Using the Image Sensor daughter boards
This connector comes configured to operate directly with the CSI Daughter
Card that is included in the M9328MX1ESBP. The communication with this card takes place through the I
2
C interface. Refer to the specification for the
SMC20014 included on the user documentation CD for information on how to use this device.
To install the image sensor boards, first locate the TetraCam sensor board. Plug its J1 connector into the J1 connector of the CSI Daughter Card. Make sure that
JP1 has a jumper installed and that JP2 does not. Plug the 48 position DIN connect on the back side of the CSI daughter card into P20 of the main board.
The two boards will be at a right angle to each other with the image sensor facing away from the main board.
Warning: To avoid circuit damage, do not plug in the TetraCam Image
Sensor or CSI daughter card with power applied to the board.
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Configuration and Operation
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MOTOROLA
User’s Manual — M9328MX1ADS
Section 3 Support Information
3.1 Introduction
This section consists of connector pin assignments, connector signal descriptions, and other information that may be useful in your development activities.
3.2 S.O.DIMM Socket
connector. Please note this in not an industry standard pin out and that it is unlikely to be compatible with off the self DIMM cards
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Support Information
.
GND
D0
1
3
J2
• •
2 GND
• •
4 ~EB0
• •
6 ~EB1 D1 5
D2 7
D3 9
• •
8 ~EB2
• •
10 ~EB3
VCC 11
• •
12 VCC
D4 13
• •
14 ~OE
D5 15
• •
16 ~WE
D6 17
• •
18 ~ECB
D7 19
• •
20 ~LBA
GND 21
• •
22 GND
DQM0 23
• •
24 A0
DQM1 25
• •
26 A1
VCC 27
• •
28 VCC
A2 29
• •
30 A5
A3 31
• •
32 A6
A4 33
• •
34 A7
GND 35
• •
36 GND
D8 37
• •
38 ~BAA
D9 39
• •
40 ~BCLK
D10 41
• •
42 NC
D11 43
• •
44 NC
VCC 45
• •
46 VCC
D12 47
• •
48 ~CS0
D13 49
• •
50 ~CS1
D14 51
• •
52 ~CS4
D15 53
• •
54 ~CS5
GND 55
• •
56 GND
~RESETSF 57
• •
58 MOSI
MISO 59
• •
60 SS
SDCLK 61
• •
62 SDCKE0
VCC 63
• •
64 VCC
~RAS 65
• •
66 ~CAS
~SDWE 67
• •
68 SDCKE1
~CS2 69
• •
70 A13
~CS3 71
• •
72 SPI_RDY
~RESET 73
• •
74 SDCLK
GND 75
• •
76 GND
CLKOUT 77
• •
78 SIM_TX
NC 79
• •
80 SIM_RX
VCC 81
• •
82 VCC
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MOTOROLA
Support Information
S.O.DIMM Socket
D16 83
• •
D17 85
• •
D18
D19
GND
D20
87
89
91
93
• •
• •
• •
• •
D21
D22
D23
95
97
99
VCC 101
A8 103
A10 105
GND 107
MA10 109
MA11 111
VCC 113
DQM2 115
DQM3 117
GND 119
D24 121
D25 123
D26 125
D27 127
VCC 129
D28 131
D29 133
D30 135
D31 137
GND 139
NC 141
VCC 143
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
• •
116 A11
118 A12
120 GND
122 A14
124 A15
126 A20
128 A21
130 VCC
132 A22
134 A23
136 A24
138 NC
140 GND
142 NC
144 VCC
84 SIM_SVEN
86 SIM_PD
88 SIM_CLK
90 SIM_RST
92 GND
94 A16
96 A17
98 A18
100 A19
102 VCC
104 A9
106 NC*
108 GND
110 NC*
112 NC*
114 VCC
Figure 3-1 SODIMM Connector J2 Pin Assignments
*These connector pins may be connected to address lines with the addition of a zero ohm resistor. For more details please refer to the M9328MX1ADS schematic, sheet 10 of 12.
Pin
1, 2, 21, 22, 35,
36, 55, 56, 75,
76, 91, 92, 107,
108, 119, 120,
139, 140
Table 3-1 SODIMM Connector J2 Signal Descriptions
Mnemonic
GND GROUND
Signal
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Support Information
Table 3-1 SODIMM Connector J2 Signal Descriptions (Continued)
Pin
3, 5, 7, 9, 13,
15, 17, 19, 37,
39, 41, 43, 47,
49, 51, 53, 83,
85, 87, 89, 93,
95, 97, 99, 121,
123, 125, 127,
131, 133, 135,
137
4, 6, 8, 10
Mnemonic
D0 — D31
Signal
DATA BUS (lines 0—31) — Bidirectional signals for transferring data between the processor and an external device.
~EB0 — ~EB3 ENABLE BYTE (lines 0—3) — Active-low outputs that indicate active data bytes for the current access. ~EB0 corresponds to DATA[31—24],
~EB1 corresponds to DATA[23—16], ~EB2 corresponds to
DATA[15—8], and ~EB3 corresponds to DATA[7—0]
VCC VCC (3.0-volts) 11, 12, 27, 28,
45, 46, 63, 64,
81, 82, 101,
102, 113, 114,
129, 130, 143,
144
14
16
18
20
~OE
~WE
~ECB
~LBA
OUTPUT ENABLE — Active-low output that indicates that a bus access is a read access; enables slave devices to drive the data bus.
WRITE ENABLE — Active-low output
END CURRENT BURST — Active-low input signal asserted by external burst devices; indicates the end of a burst sequence
LOAD BURST ADDRESS — Active-low signal asserted during burst mode accesses; causes the external burst device to load a new starting burst address
23, 25, 115, 117 DQM0 — DQM3 SDRAM enable bytes (0-3) - Active-low output signals.
24, 26, 29 —
34, 70, 94, 96,
98, 100, 103 —
105, 116, 118,
122, 124, 126,
128, 132, 134,
136
A{0 — A24
(not in exact order)
ADDRESS BUS (0-24) - Output lines for addressing external devices.
38 ~BAA
40 ~BCLK
BURST ADDRESS ADVANCE — Active-low signal asserted during burst mode accesses; causes the external burst devices to increment internal burst counters.
BURST CLOCK — Output signal to external burst devices; synchronizes burst loading and incrementing
42, 44, 77, 79,
106, 110, 112,
138, 141, 142
NC NO CONNECTION
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Support Information
UART Connectors
Table 3-1 SODIMM Connector J2 Signal Descriptions (Continued)
Pin
48, 50, 52, 54,
69, 71
57
58
59
60
61, 74
62, 68
65
66
67
72
73
78,80
84
86
88
90
109, 111
Mnemonic Signal
~CS0 — ~CS5
(not in exact order)
CHIP SELECTS (lines 0 - 5) - Chip-select signals, active-low outputs .
~RESETSF
MOSI
MISO
SS
RESET SYNC FLASH - Active low output
MASTER OUT / SLAVE IN - SPI data signal (bidirectional)
MASTER IN / SLAVE OUT - SPI data signal (bidirectional)
SLAVE SELECT - bidirectional, active low, input in slave mode, output in master mode
SDCLK
SDCKE0,
SDCKE1
~RAS
~CAS
SDWE
SPI_RDY
SDRAM clock - output to SDRAM
SDRAM CLOCK ENABLE 0 & 1 - Active high outputs to SDRAM
ROW ADDRESS STROBE -clocks row address to SDRAM
COLUMN ADDRESS STROBE - clocks column address to SDRAM
SDRAM WRITE ENABLE - write data strobe to SDRAM, active low
SPI READY - CSPI serial burst trigger, active low input
~RESET RESET — Active-low reset signal to the processor
SIM_TX,SIM_RX SIM TRANSMITTED/ SIM RECEIVED DATA - SIM card data, tied together externally through zero ohm resistor.
SIM_SVEN
SIM_PD
SIM_CLK
SIM_RST
MA10, MA11
SIM VCC ENABLE - enable power to the SIM card, active low
SIM PRESENCE DETECT - Active low input
SIMCLOCK - output clock to SIM card
SIM RESET - Active low output to SIM card
MUXED ADDRESS 10 & 11 - Multiplexed addresses to SDRAM
3.3 UART Connectors
connector P11 and UART2 connector P12.
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Support Information
5
G
N
D
4
N
C
3
R
X
D
2
T
X
D
1
N
C
P11 or P12
N
9 8 7 6
C
C
T
S
R
T
S
N
C
Figure 3-2 Connector P11 (UART1), P12 (UART2) Pin Assignments
Pin
1, 4, 6, 9
2
3
5
7
8
Table 3-2 Connector P11 (UART1), P12 (UART2) Signal Descriptions
Mnemonic
NC
TXD
RXD
GND
RTS
CTS
Signal
NO CONNECTION
TRANSMITTED DATA — RS232 serial data output signal.
RECEIVED DATA – RS232 serial data input signal.
GROUND
READY TO SEND — Active-positive, RS232 input signal.
CLEAR TO SEND — Active-positive RS232 output signal.
Waning : UART2 can not be used if IrDA is enabled.
3.4 MultiICE Connector
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MOTOROLA
Support Information
Ethernet Connector
P24
VCC 1
• •
~TRST 3
• •
TDI 5
• •
TMS 7
• •
2
4
6
VCC
GND
GND
8 GND
TCK 9
• •
10 GND
GND 11
• •
12 GND
TDO 13
• •
14 GND
~RESET 15
• •
16 GND
NC 17
• •
18 GND
NC 19
• •
20 GND
Figure 3-3 MultiICE Connector P24 Pin Assignments
Pin
1, 2
3
4, 6, 8, 10 —
12, 14, 16, 18,
20
5
Table 3-3 MultiICE Connector P24 Signal Descriptions
Mnemonic
VCC
~TRST
GND
Signal
3.0-VOLT POWER
TARGET RESET — Active-low output signal that resets the target.
GROUND
TDI
7
9
13
15
17, 19
TMS
TCK
TDO
~RESET
NC
TEST DATA INPUT — Serial data output line, sampled on the rising edge of the TCK signal.
TEST MODE SELECT – Output signal that sequences the target’s
JTAG state machine, sampled on the rising edge of the TCK signal.
TEST CLOCK — Output timing signal, for synchronizing test logic and control register access.
JTAG TEST DATA OUTPUT — Serial data input from the target.
RESET — Active-low reset signal.
NO CONNECTION
3.5 Ethernet Connector
User’s Manual
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Support Information
1
Pin
1
2
3
4, 5, 7, 8
6
9,10
Figure 3-4 Ethernet Connector J1 Pin Assignments
Table 3-4 Ethernet Connector J1 Signal Descriptions
Mnemonic
TPO+
TPO-
TPI+
NC
TPI-
GND
Signal
DIFFERENTIAL OUTPUT PLUS
DIFFERENTIAL OUTPUT MINUS
DIFFERENTIAL INPUT PLUS
NO CONNECTION
DIFFERENTIAL INPUT MINUS
GROUND
3.6 USB Connector
.
connector.
2 1
3 4
Pin
1
2
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Figure 3-5 USB Connector P10 Pin Assignments
Table 3-5 USB Connector P10 Signal Descriptions
Mnemonic
NC
D-
NO CONNECTION
USB DATA MINUS
Signal
Support Information
User’s Manual
MOTOROLA
Support Information
BlueTooth Connector
Pin
3
4
Table 3-5 USB Connector P10 Signal Descriptions (Continued)
Mnemonic
D+
GND
USB DATA PLUS
GROUND
Signal
3.7 BlueTooth Connector
M9328MX1ADS provides a 20-pin connector, P9, for interfacing the MC9328MX1 with the MMM7400 RF (MC13180) Module.
The selection of the used interface is determined via software by programming internal registers. Note on the schematic several zero ohm resistors allow the user to reconfigure the pin out to
accommodate a different RF module. Figure 3-6 gives the pin
assignments and Table 3-6 gives the signal descriptions for this
connector.
P9
GND 1
• •
BT1 3
• •
2 GND
4 BT2/BT3*
BT10 5
• •
BT5 7
• •
6 BT12/BT4*
8 NC
NC/BT7* 9
• •
10 NC
BT9 11
• •
12 SCLK/BTRF_EN*
BT11 13
• •
14 BT7
BT13 15
• •
16 BT4
BT8 17
• •
18 BT3
VDD 19
• •
20 BT6
Figure 3-6 BlueTooth Connector P9 Pin Assignments
* Controlled by zero ohm resistors. The inside signal is the one connected when the system is shipped from the factory.
User’s Manual
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Support Information
Table 3-6 BlueTooth Connector P9 Signal Descriptions
17
18
19
20
13
15
16
Pin
1, 2
3
4
5
6
7
8, 10
9,14
11
12
Mnemonic
BTRF GND
BT1
BT2
BT10
BT12
BT5
NC
BT7
BT9
SCLK
BT11
BT13
BT4
BT8
BT3
BTRF VDD
BT6
Signal
GROUND for BT RF module
Ref_Clk (24Mhz)
Transmit Data
Inverse BT_RF_OSC_EN/GPO2
SPI data out
Frame synch
NO CONNECTION
Diversity/BT_RF_OSC_EN
RxTx_en/HOP_SRB
Should be configured as GPIO,
PC14
SPI enable
SPI clock
SPI data in
PWM_RSSI/TXEN
Receive Data
Power supply for BT RF module
PWM_Tx/GPO1
3.8 MultiTrace Connector
Connector P27 is the MX1ADS MultiTrace connector. Figure3-7
gives the pin assignments and Table 3-7 gives the signal
descriptions for this connector.
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Support Information
MultiTrace Connector
TMS
TDI
~TRST
GND
GND
GND
GND
GND
NC
NC
GND
NC
~RESET
TDO
NC
TCLK
GND
GND
GND
P27
1
• •
3
• •
5
• •
2
4
6
7
• •
8
9
• •
10
11
• •
12
13
• •
14
15
• •
16
17
• •
18
19
• •
20
21
• •
22
23
• •
24
25
• •
26
27
• •
28
29
• •
30
31
• •
32
33
• •
34
35
• •
36
37
• •
38
~LBA
~BCLK
~BAA
A19
A18
A17
A16
A24
NC
NC
A23
NC
NC
VCC
NC
~ECB
A22
A21
A20
Figure 3-7 MultiTrace Connector P27 Pin Assignments
Pin
1 — 4, 7, 8, 10,
13, 14,
5, 23, 25, 27,
29, 31, 33, 35,
37
6, 24, 26, 28,
30, 32, 34, 36,
38
9
11
12
15
Table 3-7 MultiTrace Connector P27 Signal Descriptions
Mnemonic
NC NO CONNECTION
Signal
GND GROUND
A16 — A24
(not in exact order)
~RESET
ADDRESS BUS (lines 16—24) — Output lines for addressing external devices.
RESET — Active-low reset signal.
TDO
VCC
TCLK
JTAG TEST DATA OUTPUT — Serial data input from the target
3.3-VOLT POWER
TEST CLOCK — Output timing signal, for synchronizing test logic and control register access.
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Support Information
Pin
16
17
18
19
20
21
22
Table 3-7 MultiTrace Connector P27 Signal Descriptions (Continued)
Mnemonic
~ECB
TMS
~LBA
TDI
~BCLK
~TRST
~BAA
Signal
END CURRENT BURST — Active-low input signal asserted by external burst devices; indicates the end of a burst sequence.
TEST MODE SELECT – Output signal that sequences the target’s
JTAG state machine, sampled on the rising edge of the TCK signal.
LOAD BURST ADDRESS — Active-low signal asserted during burst mode accesses; causes the external burst device to load a new starting burst address.
TEST DATA INPUT — Serial data output line, sampled on the rising edge of the TCK signal.
BURST CLOCK — Output signal to external burst devices; synchronizes burst loading and incrementing.
TARGET RESET — Active-low output signal that resets the target.
BURST ADDRESS ADVANCE — Active-low signal asserted during burst mode accesses; causes the external burst devices to increment internal burst counters.
3.9 LCD Panel Connector
descriptions this connector.
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User’s Manual
MOTOROLA
Support Information
LCD Panel Connector
P8
VCC 1
• •
LADC 3
• •
LP 5
• •
2
4
GND
FLM
6 LSCLK
LD4 7
• •
8 LD3
LD2 9
• •
10 LD1
LD10 11
• •
12 LD9
LD8 13
• •
14 LD7
LD15 15
• •
16 LD14
LD13 17
• •
18 LD12
CONTRAST 19
• •
20 MISO
SPL_SPR 21
• •
22 REV
PS 23
• •
24 CLS
LD0 25
• •
26 GND
LD6 27
• •
28 LD5
LD11 29
• •
30 GND
TOP 31
• •
32 BOTTOM
LEFT 33
• •
34 RIGHT
Figure 3-8 LCD Panel Connector P8 Pin Assignments
Pin
1
2, 26,30
5
6
3
4
7 — 18, 25, 27
— 29
19
20
21
22
Table 3-8 LCD Panel Connector P8 Signal Descriptions
Mnemonic
VCC
GND
LADC
FLM
LP
LSCLK
LD0 — LD15
(not in exact order)
CONTRAST
MISO
SPL_SPR
REV
Signal
Input power (3.0-volts)
GROUND
ACD/OE Alternate Crystal Direction/Output Enable*
FLM/VSYNC First Line Marker/Vertical Synchronization*
LP/HSYNC Line Pulse/Horizontal Synchronization *
SCLK Shift Clock
LCD data bus
LCD bias voltage used as contrast control
Configure as GPIO, PC16. Used for an LCD enable
Horizontal scan direction (Sharp panel dedicated signal)
Signal for common electrode driving signal preparation (Sharp panel dedicated signal)
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Support Information
31
32
33
34
Pin
23
24
Table 3-8 LCD Panel Connector P8 Signal Descriptions (Continued)
Mnemonic
PS
CLS
TOP
BOTTOM
LEFT
RIGHT
Signal
Control signal output for source driver (Sharp panel dedicated signal)
Start signal output for gate driver. This signal is inverted version of PS
(Sharp panel dedicated signal)
Negative pen-Y analog input
Positive pen-Y analog input
Negative pen-X analog input
Positive pen-X analog input
* Passive/Active LCD matrix functions, signal function depends on the LCD type configuration selected.
3.10 SIM Card Connector
descriptions for this connector.
Pin
1
2, 4
3
5
6
6
5
4
1
2
3
Figure 3-9 SIM Card Connector P3 Pin Assignments
Table 3-9 SIM Card Connector P3 Signal Descriptions
Mnemonic Signal
SIM_TX/SIM_RX SIM TRANSMITTED/ SIM RECEIVED DATA - SIM card data, tied together externally through zero ohm resistor.l
VCC
GND
SIM_RST
SIM_CLK
VCC (3.0-volts) SIM card power
GROUND
SIM RESET - Active low output to SIM card
SIMCLOCK - output clock to SIM card
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User’s Manual
MOTOROLA
Support Information
Memory Stick Connector
3.11 Memory Stick Connector
Connector P5 is the MX1ADS memory stick connector.
Figure 3-10 gives the pin assignments and Table 3-10 gives the
signal descriptions for this connector.
1 10
Figure 3-10 Memory Stick Connector P5 Pin Assignments
Pin
1,10
2
3,9
4
5,7
6
8
Table 3-10 Memory Stick Connector P5 Signal Descriptions
Mnemonic
GND
SD_CMD
VCC
SD_DAT3
NC
SD_DAT0
SD_CLK
Signal
Ground
BS Memory Stick Bus Status (Connected to SD_CMD)
VCC (3.0-volts)
SDIO Memory Stick Serial Data Input/Output (Connected to SD_DAT3)
NO CONNECTION
INS Stick Detect (Connected to SD_DAT0)
SCLK Memory Stick Serial Clock (Connected to SD_CLK)
3.12 SD/MMC Connector
descriptions for this connector.
User’s Manual
MOTOROLA Support Information
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Support Information
11 10 8 7 6 5 4 3 2 1 9 16
Figure 3-11 SD/MMC Connector P2 Pin Assignments
6
7
4
5
8
1
2
3
Pin
9
10
11
16
Table 3-11 SD/MMC Connector P2 Signal Descriptions
Mnemonic
SD_DAT3
SD_CMD
GND
VCC
SD_CLK
GND
SD_DAT0
SD_DAT1
SD_DAT2
USBD_AFE
GND
SD_WP
MMC Card
Reserved
Signal
1-Bit Mode
Not Used
SD Card
4-Bit Mode
Data Line DAT3
Command / Response
Ground
Supply Voltage (3.0-volts)
Clock
Ground
Data Line DAT0
Interrupt (IRQ) Not Used
Not Used ReadWait (RW)
Data Line DAT1 or
Interrupt (IRQ)
Data Line DAT2 or
Read Wait (RW)
Card Detect, configured as GPIO, PB20
Ground
Write Protect Detect, connects to I/O Expander, U42-13
(P10)
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MOTOROLA
Support Information
Expansion Connector
3.13 Expansion Connector
Connector P19 is the Expansion connector. All the signals of
MC9328MX1 are connected to this 16x3-pin connector except data bus, address bus, EIM control signals and SDRAM control signals.
Figure 3-12 gives the pin assignment and Table 3-12. gives the
signal descriptions for this connector.
C
B
A
16 15 14 13 12 11 10 9
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
8
•
•
•
7
•
•
•
6
•
•
•
5
•
•
•
4
•
•
•
3
•
•
•
2
•
•
•
1
•
•
•
Pin
A1,B1,C1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13,C12
A14
Figure 3-12 Connectors P19 and P20 Pin Assignments
Table 3-12. Expansion Connector P19 Signal Description
Mnemonic
GND
PWMO
MOSI
SCLK
Signal
GROUND
PULSE WIDTH MODULATED OUTPUT - Output of the PWM module
MASTER OUT / SLAVE IN - SPI data signal (bidirectional)
SERIAL CLOCK
UART1_TXD UART1 TRANSMITTED DATA - Serial output signal.
SSI_TXCLK SYCHRONOUS SERIAL INTERFACE TRANSMITTER CLOCK - Bidirectional
SSI_RXDAT SYCHRONOUS SERIAL INTERFACE RECEIVED DATA - Serial input signal
UART2_RXD UART2 RECEIVED DATA - Serial output signal
UART2_CTS UART2 CLEAR TO SEND - Active low output signal
USBD_VM USB VOLTAGE MINUS INPUT
USBD_RCV USB RECEIVED DATA INPUT
SIM_CLK SIMCLOCK - Output clock to SIM card
SIM_TX,SIM
_RX
SD_CMD
SIM TRANSMITTED/ SIM RECEIVED DATA - SIM card data, tied together externally through zero ohm resistor.
SD/MMC COMMAND - Serial command bit to SD/MMC card, bidirectional
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Support Information
B12
B13
B14
B15
B8
B9
B10
B11
C2
C3
A15
A16,B16,C16
B2
B3
B4
B5
B6
B7
C4
C5
C6
C7
C8
C9
C10
C11
C13
Table 3-12. Expansion Connector P19 Signal Description
SD_DAT2 SD/MMC DATA BIT 2 - Serial data bit to SD/MMC card, bidirectional
VCC VCC (3.0-volts)
TIN
MISO
TIMER INPUT CAPTURE - Timer input
MASTER IN / SLAVE OUT - SPI data signal (bidirectional
SPI_RDY SPI READY - CSPI serial burst trigger, active low input
UART1_RTS UART1 REQUEST TO SEND - Active low input signal
SSI_TXFS SYCHRONOUS SERIAL INTERFACE TRANSMITTER FRAME SYNC
SSI_RXCLK SYCHRONOUS SERIAL INTERFACE RECEIVER CLOCK - Bidirectional
UART2_TXD UART2 TRANSMITTED DATA - Serial output signal
USBD_VMO USB VOLTAGE MINUS OUPUT
USBD_VP USB VOLTAGE POSITIVE INPUT
USBD_ROE USB DATA RECEIVED OUTPUT ENABLE - Active low output
SIM_RST
SIM_PD
SIM RESET - Active low output to SIM card
SIM PRESENCE DETECT - Active low input
SD_CLK SD/MMC CLOCK - Clock output to SD/MMC card
SD_DAT1 SD/MMC DATA BIT 1 - Serial data bit to SD/MMC card, bidirectional
TOUT12
SS
TIMER OUTPUT COMPARE
SLAVE SELECT - Bidirectional, active low, slave mode input, master mode output.
UART1_RXD UART1 RECEIVED DATA - Serial output signal
UART1_CTS UART1 CLEAR TO SEND - Active low output signal
SSI_TXDAT SYCHRONOUS SERIAL INTERFACE TRANSMITTED DATA - Serial output signal
SSI_RXFS SYCHRONOUS SERIAL INTERFACE RECEIVER FRAME SYNC - Bidirectional
UART2_RTS UART2 REQUEST TO SEND - Active low input signal
USBD_VPO USB VOLTAGE POSITIVE OUTPUT
USBD_SUSP
ND
USB SUSPEND OUTPUT
USBD_AFE USB ANALOG FRONT END ENABLE
SIM_SVEN SIM VCC ENABLE - Enable power to the SIM card, active low
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MOTOROLA
Support Information
Image Sensor Connector
Table 3-12. Expansion Connector P19 Signal Description
SD_DAT3 SD/MMC DATA BIT 3 - Serial data bit to SD/MMC card, bidirectional
SD_DAT0 SD/MMC DATA BIT 0 - Serial data bit to SD/MMC card, bidirectional
C14
C15
3.14 Image Sensor Connector
P20 is a 16x3-pin connector P20 is assigned with signals for Image Sensor.
Daughter card supporting different image sensor can plugged to this connec-
the pin assignment of this connector and Table 3-13.
gives the signal descriptions for this connector.
Pin
A1,B1,C1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11-A15
A16,B16,C16
B2-B15
C2
C3
C4
C5
C6
Table 3-13. Image Sensor Connector P20 Signal Description
Mnemonic
GND
CSI_D0
CSI_D2
CSI_D4
CSI_D6
GROUND
Signal
CMOS SENSOR INTERFACE DATA 0 - Data input from Image Sensor
CMOS SENSOR INTERFACE DATA 2- Data input from Image Sensor
CMOS SENSOR INTERFACE DATA 4- Data input from Image Sensor
CMOS SENSOR INTERFACE DATA 6- Data input from Image Sensor
CSI_PIXCLK CMOS SENSOR INTERFACE PIXAL CLOCK - Data latch strobe
CSI_VSYNC CMOS SENSOR INTERFACE VERTICAL SYNC - Control input
I2C_CLK I SQUARED C CLOCK - Serial clock, bidirectional
MOSI/PC17 MASTER OUT / SLAVE IN or PORT C BIT 17 - Not used by CSI daughter card
~CS4/PA22 CHIP SELECT 4 / PORT A BIT 23 - Not used by CSI daughter card
NC
VCC
NO CONNECTION
VCC (3.0-volts)
NC
CSI_D1
CSI_D3
CSI_D5
NO CONNECTION
CMOS SENSOR INTERFACE DATA 1- Data input from Image Sensor
CMOS SENSOR INTERFACE DATA 3- Data input from Image Sensor
CMOS SENSOR INTERFACE DATA 5 - Data input from Image Sensor
CSI_D7 CMOS SENSOR INTERFACE DATA 7 - Data input from Image Sensor
CSI_HSYNC CMOS SENSOR INTERFACE HORIZONTAL SYNC- Active low input
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Support Information
C7
C8
C9
C10
C11
C12
C13-C15
Table 3-13. Image Sensor Connector P20 Signal Description
CSI_MCLK CMOS SENSOR INTERFACE MASTER CLOCK - Clock output to sensor card
I2C_DAT I SQUARED C DATA - Serial data, bidirectional
TIN/PA1 TIMER INPUT CAPTURE/ PORT A BIT 1 - - Not used by CSI daughter card
~CS5/PA23 CHIP SELECT 5 / PORT A BIT 23 - Configured for GPIO to act as a SYNC signal
SIM_RST
SIM_CLK
NC
SIM RESET - Configured as GPIO for Image sensor’s Unit signal.
SIM CLOCK -
NO CONNECTION
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User’s Manual
MOTOROLA
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Information in this document is provided solely to enable system and software implementers to use Motorola products. There are no express or implied copyright licenses granted hereunder to design or fabricate any integrated circuits or integrated circuits based on the information in this document.
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M9328MX1ADSUM/D
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Key Features
- MC9328MX1 DragonBall MX1 MCU
- 32-bit SyncFlash memory
- 32-bit SDRAM
- USB interface
- Ethernet controller
- Two UARTs
- IrDA
- CD Quality DAC
- Keypads
- Bluetooth (Professional Edition)
Frequently Answers and Questions
What kind of memory does the M9328MX1ADS board have?
What is the purpose of the USB interface on the M9328MX1ADS board?
What is the difference between the Standard and Professional Editions of the M9328MX1ADS board?
What peripherals are included on the M9328MX1ADS board?
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Table of contents
- 9 Description
- 9 Features
- 11 System and User Requirements
- 12 MX1ADS Diagram
- 14 Specifications
- 15 Introduction
- 15 Configuring Board Components
- 16 Peripheral Selection Switch (S1)
- 17 Mode Switch (S22)
- 19 Operation
- 19 Functional Block Diagram
- 20 On Board Memory
- 21 Memory Map
- 22 USB Interface
- 23 UART and IrDA
- 24 Ethernet
- 24 CD Quality DAC and Analog I/O
- 26 Keypads and IO Expander
- 29 Led Indicators
- 30 Using The Board Connectors
- 31 Add On Module Connections and Usage
- 31 Using the TFT LCD Display Panel
- 32 Using a SODIMM Card
- 32 Using a SIM, SD/MMC, or Memory Stick Card
- 33 Using the BlueTooth Daughter Board
- 33 Using the Image Sensor daughter boards
- 35 Introduction
- 35 S.O.DIMM Socket
- 39 UART Connectors
- 40 MultiICE Connector
- 41 Ethernet Connector
- 42 USB Connector
- 43 BlueTooth Connector
- 44 MultiTrace Connector
- 46 LCD Panel Connector
- 48 SIM Card Connector
- 49 Memory Stick Connector
- 49 SD/MMC Connector
- 51 Expansion Connector
- 53 Image Sensor Connector