Philips ISP1561 User manual
UM10005_3
ISP1561 Evaluation Board
User’s Guide
April 2003
User’s Guide
Rev. 2.0
Revision History:
Revision
Date
2.0
Apr 2003
1.3
Mar 2003
1.2
Oct 2002
1.1
July 2002
Description
Updated terminology
• “USB 1.1” to “Original USB”
• “USB 2.0” to “Hi-Speed USB”
2
2
• “I C” to “I C-bus”
Updated the following sections:
• Section 4.7
• Section 6.2
• Section 7
Updated the following sections:
• Section 4.4, removed the last paragraph.
• Section 8: Changed PSR05 to PSR05PD10611.
Contents update.
1.0
Feb 2002
First draft.
We welcome your feedback. Send it to [email protected]
Philips Semiconductors - Asia Product Innovation Centre
Visit www.semiconductors.philips.com/buses/usb or www.flexiusb.com
Author
Yuk-lin ONG
Teh Hock Lye
Tan Kim Kiat
Socol Constantin, Adrian
Albu and Teh Hock Lye
Adrian Albu and Socol
Constantin
Philips Semiconductors
ISP1561 Evaluation Board User’s Guide
This is a legal agreement between you (either an individual or an entity) and Philips Semiconductors. By accepting
this product, you indicate your agreement to the disclaimer specified as follows:
DISCLAIMER
PRODUCT IS DEEMED ACCEPTED BY RECIPIENT. THE PRODUCT IS PROVIDED “AS IS” WITHOUT
WARRANTY OF ANY KIND. TO THE MAXIMUM EXTENT PERMITTED BY APPLICABLE LAW, PHILIPS
SEMICONDUCTORS FURTHER DISCLAIMS ALL WARRANTIES, INCLUDING WITHOUT LIMITATION ANY
IMPLIED WARRANTIES OF MERCHANT ABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND
NONINFRINGEMENT. THE ENTIRE RISK ARISING OUT OF THE USE OR PERFORMANCE OF THE
PRODUCT AND DOCUMENTATION REMAINS WITH THE RECIPIENT. TO THE MAXIMUM EXTENT
PERMITTED BY APPLICABLE LAW, IN NO EVENT SHALL PHILIPS SEMICONDUCTORS OR ITS SUPPLIERS BE
LIABLE FOR ANY CONSEQUENTIAL, INCIDENTAL, DIRECT, INDIRECT, SPECIAL, PUNITIVE, OR OTHER
DAMAGES WHATSOEVER (INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF BUSINESS
PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION, OR OTHER PECUNIARY LOSS)
ARISING OUT OF THIS AGREEMENT OR THE USE OF OR INABILITY TO USE THE PRODUCT, EVEN IF
PHILIPS SEMICONDUCTORS HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
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ISP1561 Evaluation Board User’s Guide
CONTENTS
1.
INTRODUCTION.................................................................................................................................. 4
2.
ISP1561 PIN CONFIGURATION........................................................................................................ 5
3.
SYSTEM REQUIREMENTS.................................................................................................................. 5
4.
ISP1561 EVALUATION BOARD ........................................................................................................ 6
4.1.
4.2.
4.3.
4.4.
4.5.
4.6.
4.7.
PORT POWERED LEDS ...........................................................................................................................................................6
GOODLINK LEDS....................................................................................................................................................................6
VAUX POWER SUPPLY................................................................................................................................................................6
LEGACY SUPPORT ....................................................................................................................................................................7
INPUT CLOCK ..........................................................................................................................................................................8
EXTERNAL 5 V POWER SOURCE AND S3 WAKE-UP CAPABILITY....................................................................................8
LOADING THE SUBSYSTEM ID AND VENDOR ID FROM THE EXTERNAL EEPROM........................................................8
5.
HI-SPEED USB (EHCI) DRIVERS ....................................................................................................... 9
6.
LOADING OF THE ISP1561 DRIVERS............................................................................................ 10
6.1.
6.2.
LOADING OF OHCI DRIVERS............................................................................................................................................. 10
LOADING OF EHCI DRIVERS .............................................................................................................................................. 13
7.
SCHEMATICS ...................................................................................................................................... 15
8.
BILL OF MATERIALS ......................................................................................................................... 19
9.
REFERENCES....................................................................................................................................... 20
FIGURES
Figure 1-1: ISP1561 Evaluation Board...........................................................................................................................................................................4
Figure 2-1: Pin Configuration..........................................................................................................................................................................................5
Figure 4-1: Evaluation Board Schematic.......................................................................................................................................................................6
Figure 4-2: Block Diagram of Legacy Signal Connection and Testing .................................................................................................................7
2
Figure 4-3: I C-bus EEPROM Programming Example...............................................................................................................................................9
2
I C-bus is a registered trademark and GoodLink is a trademark of Koninklijke Philips Electronics N.V. Microsoft
and Windows are either registered trademarks or trademarks of Microsoft Corp. in the United States and/or
other countries. Intel is a registered trademark of Intel, Inc. The names of actual companies and products
mentioned herein may be the trademarks of their respective owners. All other names, products, and trademarks
are the property of their respective owners.
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ISP1561 Evaluation Board User’s Guide
1. Introduction
The ISP1561 evaluation board is a standard implementation of the ISP1561 in a complete configuration that allows
you to exercise all signals and main features. Figure 1-1 shows the ISP1561 evaluation board.
Some of the features that are implemented in the ISP1561 evaluation board are as follows:
•
Selection between PCI VAUX and PCI VCC power supply, with voltage presence indicator. This feature in
combination with the auxiliary +5 V input on J1 allows testing the system wake-up from power
management states, such as S3cold, in which PCI VCC is not present. This is intended mainly for testing the
ISP1561 in motherboard or notebook designs.
•
Selection between 12 MHz clock (from a crystal) or 48 MHz clock (from a 48 MHz oscillator) input. By
default, 12 MHz crystal is implemented.
•
Simple and reliable overcurrent protection scheme that allows testing of the OCn and PWEn signals.
Alternative solutions (resettable circuit protection devices) can be adopted.
•
Port power and GoodLink™ LEDs. These may be omitted in a standard commercial implementation but
are considered useful on the evaluation board for easier understanding of functionality and debugging.
•
Connector for testing legacy signals in the case of an on-board solution design. Testing the legacy feature
requires a motherboard with BIOS support for USB or legacy implementation on OHCI.
•
Input for an external power supply (J1). This allows complete testing of power management on a standard
mainboard, including the power management modes in which the PCI +5 V is cut off.
Figure 1-1: ISP1561 Evaluation Board
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2. ISP1561 Pin Configuration
Figure 2-1: Pin Configuration
3. System Requirements
•
Intel® PII400 MHz processor and above, or equivalent in speed from AMD®, Cyrix® and VIA®, is
recommended.
Generally, the processor usage indicator will vary according to the type and number of applications
launched for exercising USB devices attached. For example, running data transfer tests on two high-speed
(HS) hard disk drives (HDDs) on a P4 at 1.7 GHz, 128 Mbytes DDRAM, Microsoft® Windows® 2000 will
determine a processor usage figure of 30% to 40%. Adding two Original USB cameras and an application
playing MP3 song through Original USB speakers may increase the average processor usage figure up to
70% to 80%. Also, a Hi-Speed USB camera and an Original USB camera running simultaneously will
increase the processor usage up to 100% (depending on resolution settings).
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ISP1561 Evaluation Board User’s Guide
•
Motherboard with PCI slots that are compatible with PCI Local Bus Specification, Rev. 2.2 (Supporting at
least S1 and S3 power management modes for power management features testing.).
•
Memory: Minimum amount as indicated by the operating system and applications requirements, similar to
processor speed requirement mentioned earlier. Only a small amount of memory is occupied by the
installation of the device drivers itself or OHCI/EHCI functionality.
•
HDD space: Mainly determined by the operating system and applications requirements because specific
drivers need very little space.
•
Graphics cards, other adapter cards: No special requirements.
•
Operating systems supported: Windows 98 Second Edition (SE), Windows 2000, Windows XP and
Windows Millennium Edition (Me).
4. ISP1561 Evaluation Board
D6
D4
J1
A
PORT1
D7
B C
D5
PORT2
D8
D2
PORT3
D9
D3
2
8
4
6
1
7
3
5
JP2
DI
JP1
3 2 1
PORT4
Figure 4-1: Evaluation Board Schematic
4.1.
Port Powered LEDs
LEDs D2, D3, D4 and D5 indicate the power status of USB ports. If a port is powered, the respective LED is
turned on. It is turned off during system boot-up until OHCI or EHCI drivers are loaded, or it is switched off
whenever an overcurrent condition occurs.
4.2.
GoodLink LEDs
LEDs D6, D7, D8 and D9 are GoodLink indicators. These LEDs blink when a device is connected to the respective
port indicating port activity.
4.3.
VAUX Power Supply
If the motherboard used is PCI 2.2 compliant, jumper JP1 position 2-3 may be shorted, allowing S3cold suspend
and resume testing (PCI VAUX = 3.3 V is used and an external +5 V is necessary). If the motherboard used is PCI 2.1
or older version compliant, jumper JP1 position 1-2 must be shorted (PCI VCC = 3.3 V is used because VAUX is not
present). Note that in both these situations LED D1 must be turned on indicating that the ISP1561 is powered.
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Important: If the LED D1 is not lit, it indicates that the ISP1561 does not have the VAUX supply (VAUX is not supplied
in the PCI connector). Therefore, your computer will stop responding or ‘hang’ when the operating system is
loading OHCI or EHCI drivers. Switch JP1 to position 1-2 to connect to the PCI VCC = 3.3 V (present under
normal conditions, except some system power management modes, for example, S3cold and S4).
4.4.
Legacy Support
SMM
Fixed I/O 60/64H access is
enabled by the
EmulationEnable (EE) bit
System BIOS
PCI
OHCI
IOEnb
Memory map
00H
100H
104H
108H
10CH
System Interrupt
Controller
System Memory
Controller
PCI Bridge...
Fixed I/O 60H
and 64H Access
IO map (60H and 64H)
LegacySupport
...
LegacyEnable
Operational
Registers
BUS
System Chipset
Target Access
Config Memory
Access
Fixed I/O 60/64H access can be disabled
or subtractive decode is used
Legacy Support
Emulation Reg
MemEnb
Legacy
Emulation
Handler
IRQ1
IRQ12
SMI#
A20OUT
Legacy Mouse and
Keyboard Controller
80c42
KBIRQ1
MUIRQ12
System Chipset
RootHub
USB
Keyboard
USB
Mouse
Legacy
Keyboard
Legacy
Mouse
Figure 4-2: Block Diagram of Legacy Signal Connection and Testing
Figure 4-2 shows the necessary connections for testing the legacy support functionality. The necessary signals must
be accessible on the motherboard used for legacy testing.
Testing
Legacy support
Default setting
(No legacy support)
R22
[1]
—
0Ω
R23
[1]
—
0Ω
R2
10 kΩ
10 kΩ
R3
10 kΩ
10 kΩ
[1] When testing the legacy support, resistors R22 and R23 (or the pull-down resistors located at the bottom of the evaluation
board) must be removed.
The JP2 connector is used for testing the keyboard and mouse legacy support.
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Pin Number
1
2
3
4
5
6
7
8
4.5.
ISP1561 Evaluation Board User’s Guide
Signal
GND
GND
A20OUT
SMI#
KBIRQ1
IRQ12
MUIRQ12
IRQ1
Input Clock
You can use either the 12 MHz crystal or the 48 MHz oscillator for the input clock. If the 12 MHz crystal is used,
both the resistors (R1 and R27) are soldered. If the 48 MHz oscillator is used, resistor R27 (0 Ω) must be
removed and pin 1 is pulled HIGH by R1. By default, the 12 MHz solution is implemented on the evaluation board.
4.6.
External 5 V Power Source and S3 Wake-Up Capability
The jack J1 is used for connection of an external +5 V standby power supply to test the system wake-up from
S3cold and maintain the connected USB devices powered so that re-enumeration is avoided.
When the system is in the S3cold Power Management State, the +5 V main power at PCI connectors disappears.
Therefore, all downstream ports will not be powered because VBUS is derived from the PCI +5 V power supply. In
this situation, downstream bus-powered devices, such as mouse and keyboard, are not functional and cannot wake
up the system.
If you want to use the external +5 V supply, pads A and C on the evaluation board must be soldered together as
represented in the evaluation board drawing. Similarly, if you only intend to use PCI +5 V as the VBUS power source
(no testing of the system wake-up from S3cold and no external +5 V connected), then pads B and C must be
soldered together. Pads A, B and C are copper areas on the upper-right corner of the evaluation board (see Figure
4-1). This solution, using three copper pads, was adopted to avoid using a jumper because only the default
configuration (pads B and C connected together) will be used most of the time.
4.7.
Loading the Subsystem ID and Vendor ID from the External EEPROM
Expansion board vendors can use the Subsystem Vendor ID and the Subsystem ID for identification of the board
and loading of the correct drivers by the operating system. The PCI SIG assigns the Subsystem Vendor ID and the
vendor determines the Subsystem ID.
The Subsystem Vendor ID and the Subsystem ID can be optionally loaded at power-on from the external serial
2
I C-bus® EEPROM present on the ISP1561 evaluation board. A 3.3 V serial EEPROM of any size can be used
because only a few locations will be used for data loading.
2
The serial I C-bus EEPROM present on the ISP1561 evaluation board cannot be programmed onboard. It should be
preprogrammed by using a standard serial EEPROM programmer. A socket is provided on the ISP1561 evaluation
board for repetitive reprogramming of the EEPROM.
2
An example on the I C-bus EEPROM programming is given in Figure 4-3. In the example, it is assumed that the
Subsystem Vendor ID is 1132H, the Subsystem Device ID for OHCI is 1664H, and the Subsystem Device ID for
EHCI is 1665H.
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Address
0
1
2
3
4
5
6
7
ISP1561 Evaluation Board User’s Guide
2
I C-Bus EEPROM Content
32H
11H
64H
16H
65H
16H
FFH
[1]
15H
Subsystem Vendor ID—LOW
Subsystem Vendor ID—HIGH
Subsystem Device ID (OHCI)—LOW
Subsystem Device ID (OHCI)—HIGH
Subsystem Device ID (EHCI)—LOW
Subsystem Device ID (EHCI)—HIGH
reserved
reserved
[1] Loads Subsystem Vendor ID and Device ID. For more details, refer to the ISP1561 Hi-Speed USB PCI host controller
datasheet.
2
Figure 4-3: I C-bus EEPROM Programming Example
Note: Do not load any other values in reserved fields, otherwise, functionality of the ISP1561 is not guaranteed.
5. Hi-Speed USB (EHCI) Drivers
For Windows 2000 and Windows XP, the standard Microsoft EHCI drivers can be used. The best way to obtain
the latest EHCI drivers is to download from the Microsoft web site. Installation or update of EHCI device drivers
for the supported operating systems follows the standard installation procedure for device drivers, and so should
not present any difficulty.
However, the usb2.inf file must be modified to match the Philips Vendor ID (VID), Device ID (DID) and IC
revision code.
If there are difficulties in loading the Hi-Speed USB (EHCI) drivers, particularly for Windows 2000 and Windows
XP, the first step is to check the correctness of the VID, DID and REV_ID specified in the INF file. These values
must match with the values implemented in the respective revision of the ISP1561 found on the evaluation board.
An example of the necessary modifications that must be made to a usb2.inf file is as follows. The file example
contains information regarding the ISP1561 VID, DID and REV_ID. These modifications are similar for Windows
2000 and Windows XP.
1.
Add the following line of code under the [Manufacturer] section:
%Philips%=Philips
2.
Under the USB 2.0 Hub Support section, add the following lines of code:
; =================== Philips ==================================
[Philips]
; for Windows 2000
%PCI\VEN_1131&DEV_1562&REV_30.DeviceDesc%=EHCI,PCI\VEN_1131&DEV_1562&REV_30
%USB\ROOT_HUB20.DeviceDesc%=ROOTHUB2,USB\ROOT_HUB20
; HUBs
%USB\HubClass.DeviceDesc%=Usb2Hub.Dev,USB\HubClass
3.
Add the following lines of code under the [Strings] section:
Philips="Philips"
PCI\VEN_1131&DEV_1562&REV_30.DeviceDesc="PHILIPS PCI to USB Enhanced Host Controller ES5"
For Windows 98 and Windows Me, Philips provides EHCI device drivers; no modification in its INF file is required.
Windows 98, Windows Me, Windows 2000 and Windows XP supply the device drivers for OHCI by default.
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6. Loading of the ISP1561 Drivers
This section provides an example on loading device drivers after an ISP1561 add-on card is plugged into a
computer running Windows 98. Loading of OHCI drivers (supplied by the operating system) and Hi-Speed USB
(EHCI) drivers provided by Philips is shown in a step-by-step process.
Note: In the case of Windows 2000 and Windows XP, OHCI drivers are automatically installed by the operating
system without any user intervention.
6.1.
Loading of OHCI Drivers
The following wizard appears when an ISP1561 add-in card is plugged on a computer running Windows 98,
enabling you to install OHCI drivers.
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Click the Browse button and locate the path where the Windows 98 kit is installed.
Note: The preceding steps will be repeated twice for loading of the drivers for the two OHCI (OHCI1 and
OHCI2).
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6.2.
ISP1561 Evaluation Board User’s Guide
Loading of EHCI Drivers
After the drivers have been loaded for OHCI1 and OHCI2, the following wizard appears, when an ISP1561 add-on
card is plugged on to a computer running Windows 98, enabling you to install the Hi-Speed USB EHCI drivers.
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For your reference, the contents of the Windows 98/Windows Me EHCI driver are as follows:
7. Schematics
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A
B
C
D
C3
C5
C6
1
GND
A3
A1
A0
SDA
SCL
NC/WP
Vcc
0.1uF
C19
0.1uF
C20
AT24C01A-2.7
+3.3V
0.001uF 0.001uF 0.001uF 0.001uF
C4
RST#
PCICLK
PME#
PERR#
SERR#
PAR
INTA#
REQ#
GNT#
IDSEL
FRAME#
IRDY#
TRDY#
DEVSEL#
STOP#
C/BE[3..0]#
AD[31..0]
4
3
2
1
U1
2
0.1uF
C21
5
6
7
8
0.1uF
C18
0R
R24
C25
0.1uF
+3.3V
2
0.1uF
0.1uF
C29
0.001uF
C7
C22 DVAUX
0R
R26
1K
R21
R15 R16
4K7 4K7
DVAUX
R27
0R
R1
10K
DVAUX
C9
84
82
81
79
78
77
75
74
71
70
68
67
66
64
63
62
46
44
43
42
40
39
38
36
32
31
30
28
27
26
24
23
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
AD16
AD17
AD18
AD19
AD20
AD21
AD22
AD23
AD24
AD25
AD26
AD27
AD28
AD29
AD30
AD31
3
0.1uF
0.001uF
0.001uF
C8
AVAUX
18
RST#
PCICLK 19
4
PME#
INTA# 16
REQ#
22
GNT# 20
IDSEL 35
FRAME# 48
IRDY# 50
TRDY# 51
DEVSEL#52
STOP# 54
55
PERR# 56
SERR# 58
59
PAR
C/BE0# 72
C/BE1# 60
C/BE2# 47
C/BE3# 34
1
2
3
SEL48M
SCL
SDA
C28
3
RST#
PCICLK
PME#
INTA#
REQ#
GNT#
IDSEL
FRAME#
IRDY#
TRDY#
DEVSEL#
STOP#
CLKRUN#
PERR#
SERR#
PAR
C/BE0#
C/BE1#
C/BE2#
C/BE3#
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
AD16
AD17
AD18
AD19
AD20
AD21
AD22
AD23
AD24
AD25
AD26
AD27
AD28
AD29
AD30
AD31
48MSel
SCL
SDA
3
2
1
+3.3VAux
+3.3V
HEADER 3
JP1
4
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
4
6
14
21
29
37
45
53
61
69
76
83
86
128
1
10
17
25
33
41
49
57
65
73
80
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
C62
470pF
DVAUX
C24
0.1uF
DVAUX
PLL_VAUX
101
AVAUX_PLL
5
85
VAUX
VAUX
AGND
AGND
AGND
AGND
104
111
118
124
AVAUX
D1
5
5
FB4
BLM18PG121SN1
SEL2PORTS
A20OUT
KBIRQ1
MUIRQ12
SMI#
IRQ1
IRQ12
XOUT
XIN
RREF
DP1
DP2
DP3
DP4
DM1
DM2
DM3
DM4
PWE1#
PWE2#
PWE3#
PWE4#
OC1#
OC2#
OC3#
OC4#
GRN1
GRN2
GRN3
GRN4
AMB1
AMB2
AMB3
AMB4
PWE1#
PWE2#
PWE3#
PWE4#
DM1
DM2
DM3
DM4
DP1
DP2
DP3
DP4
90
97
106
120
102
109
116
122
103
110
117
123
R20
1K
A20OUT
KBIRQ1
MUIRQ12
SMI#
11
12
13
15
9
IRQ1
IRQ12
7
8
88
87
12K/1%
R18
OC1#
OC2#
OC3#
OC4#
107
6
DVAUX
DVAUX
C1
REF_GND
22pF
C30
6
FB1
33R
R28
+5Volt
C23
0.1uF
AVAUX
BLM18PG121SN1
0.1uF
PLL_VAUX
22pF
OSC1
12MHz
C2
*pin94
51K
Must be soldered for S3 support.
R45
LINK1
LINK2
LINK3
LINK4
89
96
105
119
95
100
114
127
92
99
113
126
91
98
112
125
330R
R19
ISP1561
U2
LED
GLNK1
GLNK2
GLNK3
GLNK4
+ C56
47uF/6.3V
93
108
115
121
AVAUX
AVAUX
AVAUX
AVAUX
GND_RREF
94
Date:
File:
A3
Size
Title
8
14
48MHZ
C48
100pF
2
4
6
8
0.1uF
C26
DP1
DP2
DP3
DP4
DM1
DM2
DM3
DM4
PWE1#
PWE2#
PWE3#
PWE4#
OC1#
OC2#
OC3#
OC4#
LINK1
LINK2
LINK3
LINK4
HEADER 4X2
1
3
5
7
JP2
+ C63
2.2uF/10V
C27
0.1uF
7
8
+ C64
2.2uF/6.3V
8
Revision
C60
0.01uF
6-Mar-2003
Sheet of
C:\1561Asic\Ver4-ES5\isp1561_ES5.DDB Drawn By:
Number
R22 R23
0R 0R
R2 R3
10K 10K
R25
0R
FB3
PLL_VAUX
+ C65
4.7uF/6.3V
BLM18PG121SN1
C59
0.01uF
OSC2
DVAUX
7
1
DVAUX
C47
100pF
7
A
B
C
D
A
B
C
D
1
2
2
AD1
AD5
AD3
AD8
AD7
AD12
AD10
C/BE1#
AD14
SERR#
PERR#
DEVSEL#
IRDY#
AD17
C/BE2#
AD21
AD19
C/BE3#
AD23
AD27
AD25
AD31
AD29
REQ#
PCICLK
AD1
AD5
AD3
AD8
AD7
AD12
AD10
C/BE1#
AD14
SERR#
PERR#
DEVSEL#
IRDY#
AD17
C/BE2#
AD21
AD19
C/BE3#
AD23
AD27
AD25
AD31
AD29
REQ#
PCICLK
3
3
4
B52
B53
B54
B55
B56
B57
B58
B59
B60
B61
B62
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
B36
B37
B38
B39
B40
B41
B42
B43
B44
B45
B46
B47
B48
B49
B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
B11
4
C31
0.1uF
C32
0.1uF
C10
0.001uF
C11
0.001uF
PCIBUS
AD8
AD7
3V3
AD5
AD3
GND
AD1
VIO
ACK64
+5V
+5V
RESERVED
GND
CLK
GND
REQ
VIO
AD31
AD29
GND
AD27
AD25
3V3
C/BE3
AD23
GND
AD21
AD19
3V3
AD17
C/BE2
GND
IRDY
3V3
DEVSEL
GND
LOCK
PERR
3V3
SERR
3V3
C/BE1
AD14
GND
AD12
AD10
M66EN
-12V
TCK
GND
TDO
+5V
+5V
INTB
INTD
PRSNT1
RESERVED
PRSNT2
CON1
C49
100pF
C/BE0
3V3
AD6
AD4
GND
AD2
AD0
VIO
REQ64
+5V
+5V
3V3_AUX
RST
VIO
GNT
GND
PME
AD30
3V3
AD28
AD26
GND
AD24
IDSEL
3V3
AD22
AD20
GND
AD18
AD16
3V3
FRAME
GND
TRDY
GND
STOP
3V3
RESERVED
RESERVED
GND
PAR
AD15
3V3
AD13
AD11
GND
AD9
TRST
+12V
TMS
TDI
+5V
INTA
INTC
+5V
RESERVED
VIO
RESERVED
5
A52
A53
A54
A55
A56
A57
A58
A59
A60
A61
A62
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32
A33
A34
A35
A36
A37
A38
A39
A40
A41
A42
A43
A44
A45
A46
A47
A48
A49
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
5
C33
0.1uF
+
1
C57
47uF/6.3V
+ C66
47uF/10V
6
6
+
C58
47uF/6.3V
AD2
AD0
AD6
AD4
C/BE0#
AD9
AD13
AD11
PAR
AD15
STOP#
TRDY#
FRAME#
AD18
AD16
AD22
AD20
AD24
IDSEL
AD28
AD26
PME#
AD30
GNT#
3.3VAux
RST#
INTA#
Date:
File:
A3
Size
Title
Number
+3.3V
+5V
7
17-Feb-2003
C:\1561Asic\Ver4-ES5\pci_conn.DDB
AD2
AD0
AD6
AD4
C/BE0#
AD9
AD13
AD11
PAR
AD15
STOP#
TRDY#
FRAME#
AD18
AD16
AD22
AD20
AD24
IDSEL
AD28
AD26
PME#
AD30
GNT#
3.3VAux
RST#
INTA#
7
Sheet of
Drawn By:
8
Revision
8
A
B
C
D
A
B
C
D
1
LINK4
LINK3
LINK2
LINK1
PWE4#
OC4#
OC3#
PWE3#
PWE2#
OC2#
OC1#
PWE1#
1
LINK4
LINK3
LINK2
LINK1
D7
LED
R34
560R
R33
560R
C45
0.1uF
D6
LED
PWE4#
OC4#
OC3#
PWE3#
+ C67
47uF/10V
+5Volt
PWE2#
OC2#
OC1#
PWE1#
2
+5Volt
R35
560R
D8
LED
C54
100pF
2
R36
560R
D9
LED
+ C68
47uF/10V
10K
R7
10K
C38
0.1uF
C37
0.1uF
10K
R13
10K
R12
C46
0.1uF
C36
0.1uF
C35
0.1uF
R6
+5Volt
R17
10K
R10
10K
+5Volt
C55
100pF
+5Volt
R8
10K
R4
10K
+5Volt
3
R14
10K
R11
10K
R9
10K
R5
10K
3
1
2
3
4
4
3
2
1
MIC2526
ENB#
FLGB#
FLGA#
ENA#
U4
MIC2526
ENA#
FLGA#
FLGB#
ENB#
U3
JACK
J1
Optional
OUTB
GND
IN
OUTA
OUTA
IN
GND
OUTB
8
7
6
5
5
6
7
8
2
3
1
R32
560R
4
FB5
C34
0.1uF
C39
0.1uF
BLM31PG121SN1
FB6
FB7
5
C44
0.1uF
C16
0.001uF
+5V_Standby
5
+ C74
100uF/10V
+5V
B
A
5V_Standby
C
BLM41PG600SN1
+ C69
+ C75
47uF/10V
22uF/10V
C61
C17
0.01uF
0.001uF
+5Volt
BLM31PG121SN1
D3
LED
D2
LED
R31
560R
R30
560R
D5
LED
D4
LED
R29
560R
4
BLM18PG121SN1
FB9
+ C71
220uF/10V
BLM18PG121SN1
FB2
+ C70
220uF/10V
BLM18PG121SN1
FB8
+ C73
220uF/10V
BLM18PG121SN1
FB10
+ C72
220uF/10V
SW1
SOCKET
6
SW2
SOCKET
Bracket holes
C43
0.1uF
C42
0.1uF
C41
0.1uF
C40
0.1uF
6
4
5
6
C51
100pF
1
4
5
6
C50
100pF
1
4
5
6
C13
0.001uF
1
4
5
6
C12
0.001uF
1
CON5
USB 4
GND
SHIELD
SHIELD
VBUS
CON4
USB 3
GND
SHIELD
SHIELD
VBUS
CON3
USB 2
GND
SHIELD
SHIELD
VBUS
CON2
USB 1
GND
SHIELD
SHIELD
VBUS
Date:
File:
A3
Size
Title
D+
D-
4
1
D+
D-
4
1
D+
D-
4
1
D+
D-
4
1
L2
L2
L2
L2
3
2
3
2
3
2
3
2
R43
15K
R41
15K
R39
15K
R37
15K
7
DP4
DM4
DP3
DM3
DP2
DM2
DP1
DM1
8
8
Revision
R44
15K
DP4
DM4
R42
15K
DP3
DM3
R40
15K
DP2
DM2
R38
15K
DP1
DM1
17-Feb-2003
Sheet of
C:\1561Asic\Ver4-ES5\power_switch.DDBDrawn By:
Number
3
2
ESD
Vcc
GND L1
ESD1
Optional
3
2
ESD
Vcc
GND L1
ESD2
Optional
3
2
ESD
Vcc
GND L1
ESD4
Optional
3
2
ESD
Vcc
GND L1
ESD3
Optional
7
A
B
C
D
Philips Semiconductors
ISP1561 Evaluation Board User’s Guide
8. Bill of Materials
The following table provides the bill of materials for the ISP1561 evaluation board.
Quantity
2
13
Part Type
—
0.001 µF
12 kΩ ±1%
12 MHz
15 kΩ
1 kΩ
2.2 µF /10 V
2.2 µF /6.3 V
220 µF/10 V
22 pF
22 µF/10 V
330 Ω
33 Ω
4.7 µF/6.3 V
470 pF
47 µF/10 V
47 µF /6.3 V
48 MHz
4 kΩ
560 Ω
51 kΩ
AT24C01A-2.7
Designator
JP3 JP4
C3 C4 C5 C6 C7 C8 C9 C10 C11
C12 C13 C16 C17
C59 C60 C61
C18 C19 C20 C21 C22 C23 C24
C25 C26 C27 C28 C29 C30 C31
C32 C33 C34 C35 C36 C37 C38
C39 C40 C41 C42 C43 C44 C45
C46
R22 R23 R24 R25 R26 R27
C47 C48 C49 C50 C51 C54 C55
C74
R1 R2 R3 R4 R5 R6 R7 R8 R9 R10
R11 R12 R13 R14
R18
OSC1
R37 R38 R39 R40 R41 R42 R43 R44
R20 R21
C63
C64
C70 C71 C72 C73
C1 C2
C75
R19
R28
C65
C62
C66 C67 C68 C69
C56 C57 C58
OSC2
R15 R16 R17
R29 R30 R31 R32 R33 R34 R35 R36
R45
U1
3
29
0.01 µF
0.1 µF
6
7
1
14
0Ω
100 pF
100 µF/10 V
10 kΩ
1
1
8
2
1
1
4
2
1
1
1
1
1
4
3
1
3
8
1
1
7
2
1
4
BLM18PG121SN1
BLM31PG121SN1
BLM41PG600SN1
ESD
FB1 FB2 FB3 FB4 FB8 FB9 FB10
FB5 FB6
FB7
ESD1 ESD2 ESD3 ESD4
—
1206
1206Cust
—
1
1
1
1
HEADER 3
HEADER 4X2
ISP1561
JACK
JP1
JP2
U2
J1
SIP3
—
—
—
9
LED
D1 D2 D3 D4 D5 D6 D7 D8 D9
LED3
UM10005_3
User’s Guide
Footprint
RADO.2
0603
Description
—
—
0603
0603
—
—
0603
0603
REC1/2
0603
—
—
—
—
0603
XTAL1
0603
0603
—
—
REC1/2
0603
REC1/2
0603
—
—
0603
CASE-D
CASE-D
XTAL3
0603
0603
0603
—
—
30 ppm
—
—
—
—
—
—
—
—
—
—
—
—
—
30 to 50 ppm, optional
—
optional
optional
2
Atmel I C-bus
EEPROM; optional
Murata
Murata; optional
Murata; optional
PSR05-PD10611Protek devices;
optional
Optional
Optional
Philips
PCB mount socket pin
diameter 2.5; optional
Optional
© Koninklijke Philips Electronics N.V. 2003. All rights reserved.
Rev. 2.0—April 2003
19 of 20
Philips Semiconductors
Quantity
2
1
1
1
1
Part Type
MIC2526
USB 1
USB 2
USB 3
USB 4
ISP1561 Evaluation Board User’s Guide
Designator
U3 U4
CON2
CON3
CON4
CON5
Footprint
SO-8
USB-TYPEA
USB-TYPEA
USB-TYPEA
USB-TYPEA
Description
Micrel
—
—
—
—
9. References
•
ISP1561 Hi-Speed USB PCI host controller datasheet
•
Designing a USB 2.0 Host PCI Adapter Using ISP1561 application note
•
Universal Serial Bus System Architecture, First and Second Editions from MindShare
•
Universal Serial Bus Specification Rev. 1.1
•
Universal Serial Bus Specification Rev. 2.0
•
PCI Local Bus Specification, Rev. 2.2
•
PCI Bus Power Management Interface Specification, Rev. 1.1
•
PCI System Architecture, Fourth Edition from MindShare.
UM10005_3
User’s Guide
© Koninklijke Philips Electronics N.V. 2003. All rights reserved.
Rev. 2.0—April 2003
20 of 20
Philips Semiconductors
Philips Semiconductors is a worldwide company with over 100 sales
offices in more than 50 countries. For a complete up-to-date list of our
sales offices please e-mail
[email protected]
A complete list will be sent to you automatically.
You can also visit our website
http://www.semiconductors.philips.com/sales/
www.semiconductors.philips.com
© Koninklijke Philips Electronics N.V. 2003
All rights reserved. Reproduction in whole or in part is prohibited
without the prior written consent of the copyright owner. The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be
changed without notice. No liability will be accepted by the publisher
for any consequence of its use. Publication thereof does not convey
or imply any license under patent – or other industrial or intellectual
property rights.
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