AU9360
USB Multiple Slots
Flash Memory Card Reader
Controller TRM
Revision 1.2
© 1997-2003 Alcor Micro Corp.
All Rights Reserved
Copyright Notice
Copyright 1997 - 2003
Alcor Micro Corp.
All Rights Reserved.
Trademark Acknowledgements
The company and product names mentioned in this document may be the trademarks or registered trademarks of their manufacturers.
Disclaimer
Alcor Micro Corp. reserves the right to change this product without prior notice.
Alcor Micro Corp. makes no warranty for the use of its products and bears no responsibility for any error that appear in this document.
Specifications are subject to change without prior notice.
Contact Information:
Web site: http://www.alcormicro.com/
Taiwan
Alcor Micro Corp.
4F, No 200 Kang Chien Rd., Nei Hu,
Taipei, Taiwan, R.O.C.
Phone: 886-2-8751-1984
Fax: 886-2-2659-7723
Santa Clara Office
2901 Tasman Drive, Suite 206
Santa Clara, CA 95054
USA
Phone: (408) 845-9300
Fax: (408) 845-9086
Los Angeles Office
9400 Seventh St., Bldg. A2
Rancho Cucamonga, CA 91730
USA
Phone: (909) 483-9900
Fax: (909) 944-0464
Table of Contents
1
Introduction……………………………………………………………………… 1
1.1 Description………………………………………………………………….
1
1.2 Features…………………………………………………………………….. 1
2
Application Block Diagram…………………………………………………… 3
3
Pin Assignment…………………………………………………………………. 5
4
System Architecture and Reference Design………………………………. 9
4.1 AU9360 Block Diagram…………………………………………………… 9
4.2 Sample Schematics…………………………………………………………. 10
5
Electrical Characteristics……………………………………………………… 13
5.1 Absolute Maximum Ratings………………………………………………… 13
5.2 Recommended Operating Conditions…………………………………… 13
5.3 General DC Characteristics………………………………………………… 13
5.4 DC Electrical Characteristics for 5 volts operation………………………. 14
5.5 Crystal Oscillator Circuit Setup for Characterization…………………….. 14
5.6 USB Transceiver Characteristics………………………………………… 15
5.7 ESD Test Results…………………………………………………………… 19
5.8 Latch-Up Test Results……………………………………………………… 20
6
Mechanical Information……………………………………………………….. 23
7
Errata…………………….……………………………………………………….. 25
TABLE OF CONTENTS
i
TABLE OF CONTENTS
i
1.0 Introduction
1.1 Description
The AU9360 is a single chip USB flash memory reader controller which supports not only the
widely used flash memory cards, such as Compact Flash (CF) card, Micro Drive (MD),
SmartMedia Card (SMC), XD Picture Card, Memory Stick (MS), Memory Stick Duo,
Memory Stick PRO, Secure Digital (SD) and Multimedia Card (MMC), but also supports
NAND type flash as a USB flash disk. It can be used as removable storage disks in enormous
data exchange applications between PC and PC or PC and various consumer electronic
appliances.
The AU9360 reads digital data saved on memory card while users manipulating electronic
devices such as digital cameras, MP3 players, PDAs and mobile phones… etc. By the
AU9360, users can transfer information such as data, graphics, texts or digital images from
one electronic device to another quickly and easily. With AU9360, users’ knowledge will be
further enhanced by the Plug-and-Play nature built into latest operation systems such as
Windows 2000/XP and Mac OS X.
By integrating of various analog components, the AU9360 is the most powerful and most
effective solution for various flash memory reader.
1.2 Features
Fully compliant with USB v1.1 specification and USB Device Class Definition for
Mass Storage, Bulk-Transport v1.0
Fully compliant with Compact Flash (CF) v1.4 Specification
Fully compliant with Secure Digital (SD) v1.0 Specification.
Fully compliant with Memory Stick (MS) v1.3 Specification.
Fully compliant with Memory Stick PRO v1.0 Specification.
Fully compliant with Memory Stick ROM Format v1.0 Specification.
Fully compliant with Memory Stick Duo Format v1.01 Specification.
Fully compliant with Smart Media Card (SMC) Standard 2000 Specification.
Support 1 piece NAND type flash memory up to 2Gbit capacity.
Support Mask ROM Card capacity from 2MB to 256MB.
Work with default driver from Windows ME, Windows XP, Mac OS 9, and Mac OS
X. Windows 98, Windows 2000 are supported by vendor driver from Alcor.
INTRODUCTION
1
Ping-pong FIFO implementation for concurrent bus operation
Support multiple sectors transfer to 4GB to optimize performance
Support optional external EEPROM for USB VID, PID and string customization
Support slot to slot read/write operation.
Support auto-detecting slot with card inserted on Win 2000 without driver.
Capable of handling 8 sets of built-in PID, VID and strings to minimize inventory
control and improve lead production lead time
Support 5 different LEDs for bus activity indication of 5 separated slots.
Each slot can be enables/disabled by 5 independent pins to fit all the different card
readers’ combinations requirement.
Integrated 4 power switches and power management circuit for each slot to meet
USB 500uA power consumption during suspend with card in the slot.
Runs at 12MHz, built-in 48 MHz PLL
Built-in 3.3V regulator
100-pin LQFP package
INTRODUCTION
2
2.0 Application Block Diagram
Following is the application diagram of a typical flash memory card reader using AU9360. By
connecting the reader to a PC through USB bus, the AU9360 is acting as a bridge between the
flash memory card from digital camera, MP3 player, PDA or mobile phone and PC.
Digital Camera
PC with USB Host Controller
MP3 Player
PDA
USB 9-in-1
Flash Memory
Card Reader
CF/MS/MD/S
MC/SD/MMC
NAND...etc
Moble Phones
PC
APPLICATION BLOCK DIAGRAM
3
APPLICATION BLOCK DIAGRAM
4
3.0Pin Assignment
CT3
CT4
GPI3
GPON4
GPON5
GPON6
GPON7
SDWP
SDCDN
SDDATA
SDCLK
SDCMD
SMDATA7
SMDATA0
MDATA1
SMDATA2
SMDATA3
EEPDATA
EEPCLK
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
SMDATA5
CT2
99
SMDATA6
CT1
100
SMCEN
GPI0
The AU9360 is packed in 100-LQFP-form factor. The following figure shows signal name
for each pin and the table in the following page describes each pin in detail.
76
GPI1
1
75
SMDATA4
GPI2
2
74
SMRBN
XDCDN
3
73
SMRDN
VCCA
4
72
SMCDN
GNDA
5
71
SMCLE
XTAL1
6
70
SMALE
XTAL2
7
69
SMWRN
VCC2Card
8
68
SMWPN
VCC5V
9
67
MSDATA
VCC3V
10
66
MSCLK
RSTN
11
65
MSBS
USB_DP
12
64
MSINS
63
GNDK
USB_DM
GNDIO
Alcor Micro
AU9360
100 -PIN LQFP
13
14
62
VCCK
23
53
CFCDN
ROMAD5
24
52
XDCEN
ROMAD4
25
51
CFD7
27
28
29
30
31
32
33
ROMD0/VID0
26
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
CFD6
CFRDN
ROMAD6
CFD5
54
CFD4
22
CFD3
CFWRN
ROMAD7
CFD2
55
CFD1
21
CFD0
CFWEN
ROMAD8
CFAD0
56
CFAD1
20
CFAD2
CFOEN
ROMAD9
CFAD3
57
CFAD9
19
ROMD5/FMSLOTEN
CFWTN
ROMAD10
ROMD4/LED MODE
58
ROMD3/XDSLOTEN
18
ROMD2 /XDSTREN
CFRST
ROMAD11
ROMD1/VID1
ROMD6/
XDWPN
59
PWRLED
60
17
ROMAD0
16
ROMAD12
ROMAD1
ROMAD13
ROMAD2
ROMD7/
SWAUSW
GPON3
61
ROMAD3
15
ROMAD15
ROMAD14
PIN ASSIGNMENT
5
Table 3-1. Pin Descriptions
Pin
Pin Name
I/O Type
1
GPI1
I
CF card slot enable
Description
2
GPI2
I
SM card slot enable
3
XDCDN
I
Connect to XD Card Detect
4
VCCA
PWR
Analog 3.3V input
5
GNDA
PWR
Ground
6
XTAL1
I
Crystal Oscillator Input (12MHz)
7
XTAL2
O
Crystal Oscillator Output (12MHz)
8
VCC2Card
O
Connect to Card Power
9
VCC5V
PWR
5V power supply
10
VCC3V
PWR
Regular 3.3V output/ IO 3.3V input
11
RSTN
Input
Hardware reset (Active Low)
12
USB_DP
I/O
USB D+
13
USB_DM
I/O
USB D-
14
GNDIO
PWR
15
ROMAD14
O
Connect to External ROM Addr14
16
ROMAD13
O
Connect to External ROM Addr13
17
ROMAD12
O
Connect to External ROM Addr12
18
ROMAD11
O
Connect to External ROM Addr11
19
ROMAD10
O
Connect to External ROM Addr10
20
ROMAD9
O
Connect to External ROM Addr9
21
ROMAD8
O
Connect to External ROM Addr8
22
ROMAD7
O
Connect to External ROM Addr7
23
ROMAD6
O
Connect to External ROM Addr6
24
ROMAD5
O
Connect to External ROM Addr5
25
ROMAD4
O
Connect to External ROM Addr4
26
ROMAD3
O
Connect to External ROM Addr3
27
ROMAD15
O
Connect to External ROM Addr15
Ground
28
GPON3
O
General Purpose Output pin, used as activity LED / XD card Access LED blink
29
ROMAD2
O
Connect to External ROM Addr2
30
ROMAD1
O
Connect to External ROM Addr1
31
ROMAD0
O
Connect to External ROM Addr0
32
PWRLED
O
General Purpose Output pin, used as activity LED / Power LED
33
ROMD0 / VID0
I/O
Connect to External ROM D0 / Selection VID/PID
34
ROMD1 / VID1
ROMD2 /
XDSTREN
ROMD3/
XDSLOTEN
I/O
Connect to External ROM D1 / Selection VID/PID
I/O
Connect to External ROM D2 / XD String Enable
I/O
Connect to External ROM D3 / XD card slot enable
35
36
PIN ASSIGNMENT
6
39
ROMD4/
LED MODE
ROMD5/
FMSLOTEN
CFAD9
O
Connect to CF Card Addr9
40
CFAD3
O
Connect to CF Card Addr3
41
CFAD2
O
Connect to CF Card Addr2
42
CFAD1
O
Connect to CF Card Addr1
43
CFAD0
O
Connect to CF Card Addr0
44
CFD0
I/O
Connect to CF Card Data0
45
CFD1
I/O
Connect to CF Card Data1
46
CFD2
I/O
Connect to CF Card Data2
47
CFD3
I/O
Connect to CF Card Data3
48
CFD4
I/O
Connect to CF Card Data4
49
CFD5
I/O
Connect to CF Card Data5
50
CFD6
I/O
Connect to CF Card Data6
51
CFD7
I/O
Connect to CF Card Data7
52
XDCEN
O
Connect to XD Card Enable
53
CFCDN
I
Connect to CF Card Card Detect
54
CFRDN
O
Connect to CF Card IORD
55
CFWRN
O
Connect to CF Card IOWR
56
CFWEN
O
Connect to CF Card WE
57
CFOEN
O
Connect to CF Card OE
58
CFWTN
I
Connect to CF Card WAIT
59
O
Connect to CF Card Reset
I/O
Connect to External ROM D6 / XD Write protection (protect=0, not protect=1)
62
CFRST
ROMD6/
XDWPN
ROMD7/
SWAUSW
VCCK
PWR
63
GNDK
PWR
64
MSINS
I
Connect to MemoryStick Card INS
65
MSBS
O
Connect to MemoryStick Card BS
66
MSCLK
O
Connect to MemoryStick Card SCLK
67
MSDATA
I/O
Connect to MemoryStick Card DATA
37
38
60
61
I/O
Connect to External ROM D4/ LED Mode Selection
I/O
Connect to External ROM D5/ Flash Slot Enable
I/O
Connect to External ROM D7/ Software auto switch disk for win 2000
(Enable=0, Disable=1).
Core 3.3V Input
Ground
68
SMWPN
I
69
SMWRN
O
Connect to SmartMedia Card Write Protect
Connect to SmartMedia Card Write Enable
70
SMALE
O
Connect to SmartMedia Card Address Latch Enable
71
SMCLE
O
Connect to SmartMedia Card Command Latch Enable
72
SMCDN
I
Connect to SmartMedia Card Card Detect
73
SMRDN
O
Connect to SmartMedia Card Read Enable
74
SMRBN
I
Connect to SmartMedia Card Ready/Busy Output
75
SMDATA4
I/O
Connect to SmartMedia Card Data 4
PIN ASSIGNMENT
7
76
SMDATA5
I/O
Connect to SmartMedia Card Data5
77
SMDATA6
I/O
Connect to SmartMedia Card Data 6
78
SMCEN
O
Connect to SM Card Enable
79
EEPCLK
O
Connect to EEPROM Serial Clock
80
EEPDATA
I/O
Connect to EEPROM Serial Data
81
SMDATA3
I/O
Connect to SmartMedia Card Data 3
82
SMDATA2
I/O
Connect to SmartMedia Card Data 2
83
SMDATA1
I/O
Connect to SmartMedia Card Data 1
84
SMDATA0
I/O
Connect to SmartMedia Card Data 0
85
SMDATA7
I/O
Connect to SmartMedia Card Data 7
86
SDCMD
I/O
Connect to SD CMD
87
SDCLK
O
Connect to SD CLK
88
SDDATA
I/O
Connect to SD Data
89
SDCDN
I
Connect to SD Card Detect
90
SDWP
I
Connect to SD Write Protect
91
GPON7
O
General Purpose Output pin, used as activity LED / MS card Access
92
GPON6
O
General Purpose Output pin, used as activity LED / SM card Access
93
GPON5
O
General Purpose Output pin, used as activity LED / CF card Access
94
GPON4
O
General Purpose Output pin, used as activity LED / SD card Access
95
GPI3
I
MS card slot enable
96
CT4
I
ECC Selection ('0'=Disable, '1'=Enable)
97
CT3
I
Connect to ground
98
CT2
I
ROM Selection ('0' = Internal ROM, '1'=External ROM)
99
CT1
I
Connect to ground
100
GPI0
I
SD card slot enable
PIN ASSIGNMENT
8
4.0 System Architecture and
Reference Design
4.1 AU9360 Block Diagram
Alcor Micro – AU9360
Flash Memory Card Reader Controller Chip Block Diagram
USB
SIE
XCVR
USB
Upstream
Port
Processor
3.3 V
Card
Power
RAM
ROM
CF/CFⅡ/ SMC/
MS/ /MS PRO/
MMC/SD/ FM
/XD Control FIFO
Arbitrator
CF
MD
SMC
MS
MS PRO
MS Duo
SD
MMC
Flash Memory (FM)
Other
EEPROM
Control
3.3 V
Voltage
Regulator
/Power Switch
12MHz
XTAL
EEPROM
SYSTEM ARCHITECTURE AND REFERENCE DESIGN
9
4.2 Sample Schematics
('0'= Internal '1'= External ROM)
( '0'= Disable.'1'= Enable)
enable
enable
enable
enable
SMDATA[0..7]
VCC3.3
VCC
FB
F2
R1
C3
C4
0.1UF
10UF
FB
C1
F1
C2
GPI0
CT1
CT2
CT3
CT4
GPI3
GPON4
GPON5
GPON6
GPON7
SDWP
SDCDN
SDDATA
SDCLK
SDCMD
SMDATA7
SMDATA0
SMDATA1
SMDATA2
SMDATA3
EEPDATA
EEPCLK
SMCEN
SMDATA6
SMDATA5
GPI1
GPI2
XDCDN
VCCA
GNDA
XTAL1
XTAL2
1UF
J1
VCC
DATADATA+
GND
FGND1
0.1UF
VCC5V
1.5K
1
2
3
4
5
R2
R3
39
39
ROMAD14
ROMAD13
ROMAD12
ROMAD11
ROMAD10
ROMAD9
ROMAD8
ROMAD7
ROMAD6
ROMAD5
ROMAD4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
GPI1
GPI2
XDCDN
VCCA
GNDA
XTAL1
XTAL2
VCC2CARD
VCC5V
VCC3V
RSTN
USB_DP
USB_DM
GNDIO
ROMAD14
ROMAD13
ROMAD12
ROMAD11
ROMAD10
ROMAD9
ROMAD8
ROMAD7
ROMAD6
ROMAD5
ROMAD4
Optional,if external rom selected
SDPWR
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
U1
VCC2CARD
Q3
MOSFET P
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
SMDATA4
SMRBN
SMRDN
SMCDN
SMCLE
SMALE
SMWRN
SMWPN
MSDATA
MSCLK
MSBS
MSINS
GNDK
VCCK
ROMD7/SWAUSW
ROMD6/XDWPN
CFRST
CFWTN
CFOEN
CFWEN
CFWRN
CFRDN
CFCDN
XDCEN
CFD7
Au9360 100pin
VCC2CARD
SDCDN
GPI0
CT1
CT2
CT3
CT4
GPI3
GPON4
GPON5
GPON6
GPON7
SDWP
SDCDN
SDDATA
SDCLK
SDCMD
SMDATA7
SMDATA0
SMDATA1
SMDATA2
SMDATA3
EEPDATA
EEPCLK
SMCEN
SMDATA6
SMDATA5
Selection
Selection
card slot
card slot
card slot
card slot
ROMAD3
ROMAD15
GPON3
ROMAD2
ROMAD1
ROMAD0
PWRLED
ROMD0/VID0
ROMD1/VID1
ROMD2/XDSTREN
ROMD3/XDSLOTEN
ROMD4/LED MODE
ROMD5/FMSLOTEN
CFAD9
CFAD3
CFAD2
CFAD1
CFAD0
CFD0
CFD1
CFD2
CFD3
CFD4
CFD5
CFD6
CT2: ROM
CT4: ECC
GPI0: SD
GPI1: CF
GPI2: SM
GPI3: MS
Q4
MOSFET P
SMDATA4
SMRBN
SMRDN
SMCDN
SMCLE
SMALE
SMWRN
SMPWR
VCC2CARD
SMCDN
SMWPN
MSDATA
MSCLK
CFPWR
MSBS
MSINS
R4
GNDK
VCCK
ROMD7/SWAUSW
ROMD6/XDWPN
CFRST
MSINS
100K
CFWTN
CFOEN
CFWEN
CFWRN
CFRDN
CFCDN
XDCEN
CFD7
Q5
MOSFET P
MSPWR
VCC2CARD
R8
100K
C22
0.1UF
VCC
100K
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
R9
VCC2CARD
D0
D1
D2
D3
D4
D5
D6
D7
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
11
12
13
15
16
17
18
19
ROMD0/VID0
ROMD1/VIC1
ROMD2/XDSTREN
ROMD3/XDSLOTEN
ROMD4/LED MODE
ROMD5/FMSLOTEN
ROMD6/XDWPN
ROMD7/SWAUSW
MOSFET P
Q7
CFCDN
R5
100K
Q1
9012
3
10
9
8
7
6
5
4
3
25
24
21
23
2
26
27
1
R7
100K 2
CFPWR
Q2
9013
1
ROMAD0
ROMAD1
ROMAD2
ROMAD3
ROMAD4
ROMAD5
ROMAD6
ROMAD7
ROMAD8
ROMAD9
ROMAD10
ROMAD11
ROMAD12
ROMAD13
ROMAD14
ROMAD15
ROMAD3
ROMAD15
GPON3
ROMAD2
ROMAD1
ROMAD0
PWRLED
ROMD0/VID0
ROMD1/VID1
ROMD2/XDSTREN
ROMD3/XDSLOTEN
ROMD4/LED MODE
ROMD5/FMSLOTEN
CFAD9
CFAD3
CFAD2
CFAD1
CFAD0
CFD0
CFD1
CFD2
CFD3
CFD4
CFD5
CFD6
U2
VCC3.3
OE/VPP
CE
22
20
C5
FB
F3
0.1UF
FB
F5
PWRLED
VCC
W27E512
Disclaimer: This schematic is for reference only.
Alcor Micro Corp. makes no warranty for the use of its
products and bears no responsibility for any error that
appear in this document. Specifications are subject to
change without notice.
VCC3.3
VCC5V
C6
FB
C9
C10
0.1UF
0.1UF
FB
F4
VCCK
18PF
VCCA
XTAL1
R10
C7
C8
0.1UF
GNDA
18PF
Y1
12MHZ
1M
XTAL2
C11
F6
0.1UF
GNDK
Size
A4
Document Number
Rev
Date:
Saturday, April 05, 2003
Sheet
SYSTEM ARCHITECTURE AND REFERENCE DESIGN
10
Au9360 9 in 1 demostration schematics
1
2.41
of
3
VCC3.3
SDPWR
SDPWR
CFPWR
JP4
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
CFD4
CFD6
CT1
CFOEN
1
CT2
SW2 2
3
C12
CT3
CFAD3
CFAD1
CFD0
47PFCFD2
CFCDN
1
CT4
SW4 2
3
1
GPI0
SW5 2
TP
3
CFWRN
INTRQ
CFRST
1
GPI1
SW6 2
3
C16
1
GPI2
SW7 2
0.1UF
C17
2
CFdata3 4
CFdata5 6
CFdata7 8
CFaddr10 10
CFaddr9 12
CFaddr7 14
CFaddr6 16
CFaddr4 18
CFaddr2 20
CFaddr0 22
CFdata1 24
IOIS16 26
CDN 28
CFdata12 30
CFdata14 32
CE2N 34
IORDN 36
WEN 38
VCC 40
VS2 42
WAITN 44
REGN 46
STSCHG 48
CFdata9 50
GND
GND
CFdata4
CFdata6
CE1N
-OE
CFaddr8
VCC
CFaddr5
CFaddr3
CFaddr1
CFdata0
CFdata2
CDN
CFdata11
CFdata13
CFdata15
VS1
IOWRN
INTRQ
CSEL
RESET
INDACK
SPKR
CFdata8
CFdata10
CFD3
CFD5
CFD7
R11 R12
R14
10K 10K
100K
SDPWR
JP1
CFAD9
9
1
2
SDCD
3
4
5
6
7
8
SDWP
SDCMD
SDCDN
CFAD2
CFAD0
CFD1
SDCLK
TP
C13
SDDATA
CFPWR
0.1UF
SDWP
CFRDN
CFWEN
C23
SD SOCKET
18PF
TP
CFWTN C14
47PF
C15
47PF
MSPWR
JP2
CF CONNECTOR
3
47PF
VSS
BS
VCC
SDIO
RESERVED
INS
RESERVED
SCLK
VCC
VSS
MSBS
1
SW8 2
GPI3
MSDATA
3
MSINS
MSCLK
C19
R16
MS SOCKET
0.1UF
10K
Optional
SMPWR
VCC3.3
VCC3.3
JP3
R17
D1
GPON3
D2
GPON4
D3
GPON5
D4
GPON6
D5
GPON7
D6
PWRLED
VCC3.3
SMCLE
SMALE
SMWRN
SMWPN
SMDATA0
SMDATA1
SMDATA2
SMDATA3
U3
10K
8
A0
7 VCC
A1
6 WP
A2
5 SCL
SDA GND
EEPCLK
EEPDATA
C20
1
2
3
4
24C02 or compatible
0.1UF
R22
330
1
2
3
4
5
06
07
08
09
10
11
SMCDN
GND
CLE
ALE
-WE
-WP
D0
D1
D2
D3
GND
-CD
VCC
D4
D5
D6
D7
LVD
GND
R/-B
-RE
-CE
VCC
12
13
14
15
16
17
18
19
20
21
22
SMDATA4
SMDATA5
SMDATA6
SMDATA7
SMRBN
SMRDN
SMCEN1
R23
SMC CONNECTOR
VCC3.3
470K
C21
0.1UF
Disclaimer: This schematic is for reference only.
Alcor Micro Corp. makes no warranty for the use of its
products and bears no responsibility for any error that
appear in this document. Specifications are subject to
change without notice.
SMPWR
R25
47K
Size
A4
Document Number
Date:
Saturday, April 05, 2003
Rev
Au9360 9 in 1 demostration schematics
ELECTRICAL CHARACTERISTICS
Sheet
2
11
2.41
of
3
VCC3.3
XDPWR
JP5
VCC2CARD
1
ROMD0/VID0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
SMDATA[0..7]
SW9 2
3
1
ROMD1/VID1
SW10 2
3
VCC2CARD
1
ROMD2/XDSTREN SW11 2
3
1
ROMD3/XDSLOTEN SW12 2
3
1
ROMD4/LED MODE SW13 2
SMWRN
SMALE
SMCLE
XDCEN1
SMRDN
SMRBN
XDCDN
3
NC
VCC
D7
D6
D5
D4
D3
D2
D1
D0
GND
-WP
-WE
ALE
CLE
-CE
-RE
R/-B
GND
-CD
SMDATA[0..7]
U4
29
30
31
32
41
42
43
44
12
VCC 37
VCC
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
R/B
RE
CE
CLE
ALE
WE
WP
6
13 GND
36 VSS
VSS
7
8
9
16
17
18
19
SMRBN
SMRDN
FMCEN
SMCLE
SMALE VCC2CARD
SMWRN
K9F5608U0A-YCB0
HEADER 19
1
ROMD5/FMSLOTEN SW14 2
3
1
ROMD6/XDWPN
SW15 2
3
1
ROMD7/SWAUSW SW16 2
XDPWR
3
Q6
MOSFET P
VCC2CARD
SMCEN
XDCEN
XDCDN
VCC2CARD
U5
1
2 A
3 B
C
6
4 G1
5 G2A
G2B
Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
15 FMCEN
14 XDCEN1
13 SMCEN1
12
11
10
9
7
74HC138 or compatable
Pin 16 connect to vcc2card
Pin 8 connect to GND
Internal ROM only
VID0: Selection VID/PID
VID1: Selection VID/PID
XDSTREN: XD slot string enable (disable=0, enable=1)
XDSLOTEN: XD card slot enable
LED MODE: LED Mode Enable(Single LED=1, 5 LED=0)
FMSLOTEN: Flash slot enable (disable=0, enable=1)
XDWPN: XD Write protect (proect=0, not protect=1)
SWAUSW: Software auto switch disk for win 2000 (Enable=0, Disable=1)
Size
A
Document Number
Au9360 9 in 1 demostration schematics
Date:
Friday, April 11, 2003
ELECTRICAL CHARACTERISTICS
Sheet
3
12
Rev
2.41
of
3
5.0 Electrical Characteristics
5.1 Absolute Maximum Ratings
SYMBOL
VCC
VIN
VOUT
TSTG
PARAMETER
Power Supply
Input Voltage
Output Voltage
Storage Temperature
RATING
-0.3 to 6.0
-0.3 to VCC+0.3
-0.3 to VCC+0.3
-40 to 125
UNITS
V
V
V
˚
C
5.2 Recommended Operating Conditions
SYMBOL
VCC
VIN
TOPR
PARAMETER
Power Supply
Input Voltage
Operating Temperature
MIN
4.5
0
-5
TYP
5.0
MAX
5.5
VCC
85
UNITS
V
V
O
C
5.3 General DC Characteristics
SYMBOL
IIL
IIH
IOZ
CIN
COUT
CBID
PARAMETER
Input low current
Input high current
Tri-state leakage current
Input capacitance
Output capacitance
Bi-directional buffer capacitance
CONDITIONS
no pull-up or pull-down
no pull-up or pull-down
MIN
-1
-1
-10
TYP
MAX
1
1
10
4
4
4
ELECTRICAL CHARACTERISTICS
UNITS
µA
µA
µA
ρF
ρF
ρF
13
5.4 DC Electrical Characteristics for 5 volts operation
( Under Recommended Operating Conditions and VCC=4.5v ~ 5.5v , Tj= -40OC to + 85OC )
SYMBOL
PARAMETER
CONDITIONS
MIN
TYP
VIL
Input Low Voltage
TTL
VIL
Input Low Voltage
CMOS
VIL
Schmitt input Low Voltage
TTL
1.10
VIL
Schmitt input Low V oltage
CMOS
1.84
VIH
Input High Voltage
TTL
2.2
VIH
Input Hight Voltage
CMOS
0.7*VCC
VIH
Schmitt input High Voltage
TTL
1.87
VIH
Schmitt input High Voltage
CMOS
3.22
VOL
Output low voltage
IOL=2, 4, 8, 12, 16, 24 mA
VOH
Output high voltage
IOH=2, 4, 8, 12, 16, 24 mA
3.5
RI
Input Pull-up/down resistance
Vil=0V or Vih=VCC
50
MAX UNITS
0.8
V
0.3*VCC
V
V
V
V
V
V
V
0.4
V
V
KΩ
5.5 Crystal Oscillator Circuit Setup for Characterization
The following setup was used to measure the open loop voltage gain for crystal oscillator
circuits. The feedback resistor serves to bias the circuit at its quiescent operating point and
the AC coupling capacitor, Cs, is much larger than C1 and C2.
ELECTRICAL CHARACTERISTICS
14
5.6 USB Transceiver Characteristics
RECOMMENDED OPERATING CONDITIONS
SYMBOL
PARAMETER
VCC
VI
VI/O
VO
TAMB
DC supply voltage
DC input voltage range
DC input range for I/Os
DC output voltage range
Operating ambient temperature
range in free air
CONDITIONS
See DC and AC
characteristics for
individual device
LIMITS
MIN
MAX
3.0
3.6
0
5.5
0
VCC
0
VCC
0
70
UNIT
V
V
V
V
˚
C
ABSOLUTE MAXIMUM RATINGS (Notes 1 and 2)
In accordance with the Absolute Maximum Rating System, Voltages are referenced to GND (Ground=0v)
SYMBOL
PARAMETER
CONDITIONS
VCC
IIK
VI
VI/O
DC supply voltage
DC input diode current
DC input voltage
DC input voltage range for I/Os
Vi<0
Note 3
IOK
VO
DC output diode current
DC output voltage
Vo> Vcc or Vo<0
Note 3
IO
DC output source sink current for
VP/VM and RCV pins
DC output source or sink current
for D+/D- pins
DC Vcc or GND current
Storage temperature range
Power dissipation per package
Vo=0 to Vcc
LIMITS
MIN
MAX
-0.5
+6.5
-50
-0.5
+5.5
-0.5
Vcc
+0.5
+/-50
-0.5
Vcc
+0.5
+/-15
Vo= 0 to Vcc
+/-50
mA
+/-100
+150
mA
˚
C
mW
IO
ICC, IGND
TSTO
PTOT
-60
UNIT
V
mA
V
V
mA
V
mA
NOTES:
1. Stresses beyond those listed may cause permanent damage to the device. These are stress
ratings only and functional operation of the device at these or any other conditions beyond those
indicated under "Recommended Operating Conditions" is not implied. Exposure to absolute
maximum rated conditions for extended periods may affect device reliability.
2. The performance capability of a high performance integrated circuit in conjunction with its thermal
environment can create junction temperatures which are detrimental to reliability. The maximum
junction temperature of this integrated circuit should not exceed 150˚C.
3. The input and output voltage ratings may be exceeded if the input and output clamp current ratings
are observed.
ELECTRICAL CHARACTERISTICS
15
DC ELECTRICAL CHARACTERISTICS
Over recommended operating conditions. Voltages are referenced to GND (Ground=0V).
SYMBOL
PARAMETER
TEST CONDITIONS
VHYS
VIH
VIL
RoH
RoL
VOH
Hysteresis on inputs
HIGH level input
LOW level input
Output impedance (HIGH state)
Output impedance (LOW state)
HIGH level output
(Note 3)
VOL
LOW level output
(Note 3)
IQ
Quiescent supply current
Isup
Supply current in suspend
IFS
ILeak
Active supply current (Full
Speed)
Active supply current (Low
Speed)
Input leakage current
Vcc=3.0V to 3.6V (Note 3)
Vcc=3.0V to 3.6V (Note 3)
Vcc=3.0V to 3.6V (Note 3)
Note 2
Note 2
Vcc=3.0V Io=6mA
Vcc=3.0V Io=4mA
Vcc=3.0V Io=100µA
Vcc=3.0V Io=6mA
Vcc=3.0V Io=4mA
Vcc=3.0V Io=100µA
Vcc=3.6V VI=Vcc or GND
Io=0
Vcc=3.6V VI=Vcc or GND
Io=0
Vcc=3.3V
IOFF
3-state output OFF-state current
ILS
LIMITS
-40˚C to +85˚C
MIN TYP MAX
0.3
0.4
0.5
1.5
2.0
0.8
1.1
28
34
43
28
35
43
2.2
2.7
2.4
2.8
0.3
0.7
0.4
0.2
330
600
9
Vcc=3.3V
2
Vcc=3.6V VI=5.5V or GND,
not for I/O Pins
Vi=Vih or ViL; Vo=Vcc or
GND
+/0.1
UNIT
V
V
V
ohm
ohm
V
V
µA
70
µA
14
mA
mA
+/-0.5
µA
+/-10
µA
NOTES:
1. All typical values are at Vcc=3.3V and Tamb=25˚C.
2. This value includes an external resistor of 24 ohm +/-1%. See "Load D+ and D-" diagram for
testing details.
3. All signals except D+ and D-.
ELECTRICAL CHARACTERISTICS
16
AC ELECTRICAL CHARACTERISTICS
GND=0V, tR = tF =3.0 ns; CL =50 pF; RL=500 Ohms
SYMBOL
PARAMETER
WAVEFORM
UNIT
LIMITS (TAMB)
tpLH
tpHL
trise
tfall
tRFM
tpLH
tpHL
trise
tfall
tRFM
tpLH
tpHL
tpLH
tpHL
tpHZ
tpZH
tpLZ
tpZL
tsu
Vcr
VMO/VPO to D+/DFull Speed
Rise and Fall Times
Full Speed
Rise and Fall Time
Matching
Full Speed
VMO/VPO to D+/DLow Speed
Rise and Fall Times
Low Speed
Rise and Fall Time
Matching
Low Speed
D+/D- to RCV
1
D+/D- to VP/VM
1
OE# to D+/D- RL =
500ohm
4
Setup for SPEED
Crossover point1
5
3
2
0˚C to +25˚C
MIN TYP MAX
0
12
0
12
4
9
20
4
9
20
90
110
1
2
120
120
75
75
70
3
9
9
4
4
0
1.3
300
300
300
200
130
0˚C to +70˚C
MIN
MAX
0
14
0
14
4
20
4
20
90
110
75
75
70
16
16
8
8
12
12
10
10
2.0
1.3
ns
ns
%
300
300
300
200
130
ns
16
16
8
8
12
12
10
10
ns
2.0
ns
%
ns
ns
ns
V
NOTES:
1. The crossover point is in the range of 1.3V to 2.5V for the low speed mode with a 50 pF
capacitance.
ELECTRICAL CHARACTERISTICS
17
ELECTRICAL CHARACTERISTICS
18
5.7 ESD Test Results
Test Description: ESD Testing was performed on a Zapmaster system using the HumanBody-Model (HBM) and Machine-Model (MM), according to MIL-STD 883 and EIAJ IC121 respectively.
• Human-Body-Model stresses devices by sudden application of a high voltage supplied by
a 100pF capacitor through 1.5k-ohm resistance.
• Machine-Model stresses devices by sudden application of a high voltage supplied by a
200pF capacitor through very low (0 ohm) resistance.
Test Circuit & Condition
- Zap Interval: 1 second
- Number of Zaps: 3 positive and 3 negative at room temperature
- Criteria: I-V Curve Tracing
ESD Data
Model
HBM
MM
Mode
Vdd, Vss, I/C
Vdd, Vss, I/C
S/S
15
15
Target
6000V
200V
Results
PASS
PASS
ELECTRICAL CHARACTERISTICS
19
5.8 Latch-Up Test Results
Test Description: Latch-Up testing was performed at room ambient using an IMCS-4600
system which applies a stepped voltage to one pin per device with all other pins open except
Vdd and Vss which were biased to 5Volts and ground respectively.
Testing was started at 5.0V (Positive) or 0V (Negative), and the DUT was biased for 0.5
seconds.
If neither the PUT current supply nor the device current supply reached the predefined limit
(DUT=00mA, Icc=100mA), then the voltage was increased by 0.1Volts and the pin was tested
again.
This procedure was recommended by the JEDEC JC-40.2 CMOS Logic standardization
committee.
Notes:
1. DUT: The device under test.
2. PUT: The pin under test.
Test Circuit: Positive Input/Output Overvoltage/Overcurrent
ELECTRICAL CHARACTERISTICS
20
Test Circuit: Negative Input/Output Overvoltage/Overcurrent
Supply Overvoltage Test
Latch-Up Data
Mode
+
Voltage
+
Current
Vdd - Vxx
Voltage (V)/Current (mA)
11.0
11.0
200
200
9.0
S/S
5
5
5
5
5
Results
Pass
Pass
Pass
Pass
Pass
ELECTRICAL CHARACTERISTICS
21
MECHANICAL INFORMATION
22
6.0 Mechanical Information
Following table shows the dimensions of the AU9360 100-pin LQFP. Measurements are in
inches. The illustration is just an example for LQFP but not for AU9360 real size.
body size
lead
D1
E1
count
14
14
100
A1
A1
A2
L1
b
c
e
0.1
1.4
1
0.2
0.127
0.5
stand-off
A2
body thickness
L1
lead length
b
lead width
c
lead thickness
e
lead pitch
MECHANICAL INFORMATION
23
MECHANICAL INFORMATION
24
7.0 Errata
Record History
12/23/2002
CT3 should change connection from high to low.
Shuttle 9360 chip using 24 MHz is not working, so we let the CT3 connect to
high for using 12 MHz. After firmware changed (code: 911218), 24 MHz is
working fine and we used 24MHz to tape out. So the schematic should change
to use 24 MHz. Data book updated to version1.1
03/26/2003
AU9360 controller chip improved to support Memory Stick PRO. Data book
was then updated the version to 1.2 to add information on Memory Stick PRO.
Modified parts are descriptions, features, pin names, diagrams and schematics.
MECHANICAL INFORMATION
25