ETC AU9254_05

1
Data Book
AU9254
USB Hub Controller
Technical Reference Manual
Product Specification
Official Release
Revision 1.02W
Public
Nov 2005
Data sheet status
Objective specification
This data sheet contains target or goal specifications for
product development.
Preliminary specification
This data sheet contains preliminary data; supplementary data may
be published later.
Product specification
This data sheet contains final product specifications.
Revision History
Date
Revision/Model
Description
Feb 2005
1.01W
Removed the schematics.
Please contact our sales if you need it.
Nov 2005
1.02W
To modified “6.0 Mechanical Information”
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AU9254 USB Hub Controller V1.02W
Official Release_ Public
Copyright Notice
Copyright 1997 - 2005
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
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Table of Contents
1 Introduction……………………………………………………………..
6
1.1 Description……………………………………………………………………………..
6
1.2 Features………………………………………………………………………………….
6
2 Application Block Diagram………………………………………….
7
3 Pin Assignment…………………………………………………………
8
4 System Architecture and Reference Design………………….. 10
4.1 AU9254 Block Diagram…………………………………………………………. 10
5 Electrical Characteristics…………………………………………… 11
5.1 Absolute Maximum Ratings………………………………………………….. 11
5.2 Recommended Operating Conditions……………………………………
11
5.3 General DC Characteristics…………………………………………………… 11
5.4 DC Electrical Characteristics for 5 volts operation………………
12
5.5 DC Electrical Characteristics for 3.3 volts operation……………
12
5.6 Crystal Oscillator Circuit Setup for Characterization……………. 13
5.7 USB Transceiver Characteristics…………………………………………… 13
5.8 ESD Test Results…………………………………………………………………….. 18
5.9 Latch-Up Test Results…………………………………………………………….. 19
6 Mechanical Information……………………………………………… 21
6.1 Normal Size Package (Body Size 209 mil)……………………………. 21
6.2 Small Size Package (Body Size 150 mil)………………………………. 23
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List of Figures
2.1 Block Diagram…………………………………………………………………………………..
7
3.1 Pin Assignment Diagram…………………………………………………………………..
8
4.1 AU9254 Block diagram……………………………………………………………………… 10
5.1 Crystal Oscillator Circuit Setup for Characterization………………………. 13
5.2 Electrical Characteristics Diagram…………………………………………………… 17
5.3 Latch-Up Test Results Diagram…………………………………………………………. 19
6.1 Mechanical Information Diagram…………………………………………………….. 21
List of Tables
3.1
Pin Descriptions…………………………………………………………………………….
5.1
Absolute Maximum Ratings…………………………………………………………. 11
5.2
Recommended Operating Conditions………………………………………….. 11
5.3
General DC Characteristics………………………………………………………….. 11
5.4
DC Electrical Characteristics for 5 volts operation…………………..… 12
5.5
DC Electrical Characteristics for 3.3 volts operation…………………….. 12
5.6
USB Transceiver Characteristics…………………………………………………… 13
5.7
Absolute Maximum Ratings………………………………………………………….. 14
5.8
DC Electrical Characteristics………………………………………………………… 15
5.9
AC Electrical Characteristics………………………………………………………… 16
9
5.10 ESD Data……………………………………………………………………………………….. 18
5.11 Latch-Up Data……………………………………………………………………………….. 20
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1.0 Introduction
1.1 Description
The AU9254 is an integrated single chip USB hub controller designed for the
emerging industry-standard Universal Serial Bus (USB). The AU9254 supports four
USB downstream ports. Each downstream port has power switch control, and
over-current sensing.
Single chip integration makes the AU9254 the most cost effective stand-alone USB
hub solution available in the market. Downstream ports can be used to connect
various USB peripheral devices, such as USB printers, modems, scanners, cameras,
mice, or joysticks to the system without adding external glue logic.
1.2 Features
•
•
•
•
•
•
•
Fully compliant with the Universal Serial Bus Specification, version 1.1.
USB hub design is compliant with Universal Serial Bus Hub Specification,
revision 1.1.
Single chip integrated USB hub controller with embedded proprietary processor.
Supports four bus-powered/self-powered downstream ports.
Built-in 3.3v voltage regulator allows single +5V operating voltage, resulting in
reduced overall system cost.
Runs at 12Mhz frequency.
28-pin SSOP package, both normal size (body size 209 mil) and smaller size
(body size 150 mil) are available.
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2.0 Application Block Diagram
The AU9254 is a single chip 4-port USB hub controller. The upstream port is
connected to the USB system. The downstream ports can be used for a mouse,
joystick, scanner, printer or other device.
Figure 2.1 Block Diagram
USB HOST SYSTEM
PRINTER
SCANNER
ALCOR MICRO
AU9254
USB
DOWNSTREAM
PORTS
USB DOWNSTREAM
PORTS
MOUSE
Keyboard
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3.0 Pin Assignment
The AU9254 is packaged as a 28-pin shrink small outline plastic package (SSOP).
The figure on the following page shows the signal names for each of the pins on the
chip. Accompanying the figure is the table that describes each of the pin signals.
Figure 3.1 Pin Assignment Diagram
USB2_DM
1
28
USB1_DP
USB2_DP
2
27
USB1_DM
USB3_DM
3
26
USB_DP
USB3_DP
4
25
USB_DM
USB4_DM
5
24
DP3_OVRCUR
USB4_DP
6
23
DP4_OVRCUR
DP4_PWRUP
7
22
DP3_PWRUP
DP2_PWRUP
8
21
XTAL2
BUS_PWRED
9
20
XTAL1
VCC5O/VCC5IK
10
19
AGND/GNDO
GND5O/GND5IK
11
18
NC
VCC3V
12
17
DP2_OVRCUR
DP1_PWRUP
13
16
SUSPEND
GANGPOWER
14
15
DP1_OVRCUR
ALCOR MICRO
AU9254 A21
USB HUB
CONTROLLER
28 - PIN SSOP
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Table 3.1 Pin Descriptions of Au9254, 28-pin SSOP
Pin #
Pin Name
Input/Output
Description
1
USB_DM
Input/Output
USB D- for downstream port 2; add 15KΩ pull-down to ground.
2
USB2_DP
Input/Output
USB D+ for downstream port 2; add 15KΩ pull-down to ground.
3
USB3_DM
Input/Output
USB D- for downstream port 3; add 15KΩ pull-down to ground.
4
USB3_DP
Input/Output
USB D+ for downstream port 3; add 15KΩ pull-down to ground.
5
USB4_DM
Input/Output
USB D- for downstream port 4; add 15KΩ pull-down to ground.
6
USB4_DP
Input/Output
USB D+ for downstream port 4; add 15KΩ pull-down to ground
7
DP4_PWRUP
Output
Downstream port 4 power switch control. Active low.
8
DP2_PWRUP
Output
Downstream port 2 power switch control. Active low.
9
BUS_PWRED
Input
Bus power. Low indicates bus-powered.
10
VCC5O/VCC5IK
Power
+5 V power supply.
11
GND5O/GND5IK
Power
Ground.
12
VCC3V
Power
3.3V output for upstream D+ pull-up.
13
DP1_PWRUP
Output
Downstream port 1 power switch control. Active low.
14
GANGPOWER
Input
Ganged or individual port power selection. Add a 10k pull down
for ganged power. 10k pull up for individual power.
15
DP1_OVRCUR
Input
Downstream port 1 over-current indicator. Active low.
16
SUSPEND
Output
17
DP2_OVRCUR
Input
Downstream port 2 over-current indicator. Active low.
18
NC
19
AGND/GNDO
Power
Ground.
20
XTAL_1
Input
Crystal in.
21
XTAL_2
Output
Crystal out.
22
DP3_PWRUP
Output
Downstream port 3 power switch control. Active low.
23
DP4_OVRCUR
Input
Downstream port 4 over-current indicator. Active low.
24
DP3_OVRCUR
Input
Downstream port 3 over-current indicator. Active low.
25
USB_DM
Input/Output
USB D- for upstream.
26
USB_DP
Input/Output
USB D+ for upstream port. Need external 1.5KΩ pull-up to 3.3V.
27
USB1_DM
Input/Output
USB D- for downstream port 1; add 15KΩ pull-down to ground.
28
USB1_DP
Input/Output
USB D+ for downstream port 1; add 15KΩ pull-down to ground.
Device is in suspended state: Active high.
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4.0 System Architecture and
Reference Design
4.1 AU9254 Block Diagram
Figure4.1 AU9254 Block Diagram
ROOT PORT
XCVR
USB
SIE
COMMAND
PROCESSOR
SUSPEND,
RESUME AND
FRAME TIMER
DESC.
ROM
HUB
REPEATER
PORT
CONTROL
3.3V
3.3V
VOLTAGE
REGULATOR
4X PLL
12 MHz
.....
XCVR
PORT 1
PORT
CONTROL
XCVR
.....
PORT 4
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5.0 Electrical Characteristics
5.1 Absolute Maximum Ratings
Table 5.1 Absolute Maximum Ratings
SYMBOL
PARAMETER
RATING
UNITS
VCC
Power Supply
-0.3 to 6.0
V
VIN
Input Voltage
-0.3 to VCC+0.3
V
VOUT
Output Voltage
-0.3 to VCC+0.3
TSTG
Storage Temperature
V
˚
-40 to 125
C
5.2 Recommended Operating Conditions
Table 5.2 Recommended Operating Conditions
SYMBOL
PARAMETER
MIN
TYP
MAX
UNITS
VCC
Power Supply
4.5
5.0
5.5
V
VIN
Input Voltage
0
VCC
V
TOPR
Operating Temperature
-5
85
O
C
5.3 General DC Characteristics
Table 5.3 General DC Characteristics
SYMBOL
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
IIL
Input low current
no pull-up or pull-down
-1
1
µA
IIH
Input high current
no pull-up or pull-down
-1
1
µA
IOZ
Tri-state leakage current
-10
10
µA
CIN
Input capacitance
4
ρF
COUT
Output capacitance
4
ρF
CBID
Bi-directional buffer capacitance
4
ρF
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5.4 DC Electrical Characteristics for 5 volts operation
( Under
Recommended
Operating
VCC=4.5v ~ 5.5v , Tj= -40OC
Conditions and
to
+
85OC )
Table 5.4 Electrical Characteristics for 5 volts operation
SYMBOL
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
VIL
Input Low Voltage
TTL
0.8
V
VIL
Input Low Voltage
CMOS
0.3*VCC
V
VIL
Schmitt input Low Voltage
TTL
1.10
V
VIL
Schmitt input Low V oltage
CMOS
1.84
V
VIH
Input High Voltage
TTL
2.2
V
VIH
Input Hight Voltage
CMOS
0.7*VCC
V
VIH
Schmitt input High Voltage
TTL
1.87
V
VIH
Schmitt input High Voltage
CMOS
3.22
V
VOL
Output low voltage
IOL=2, 4, 8, 12, 16, 24 mA
VOH
Output high voltage
IOH=2, 4, 8, 12, 16, 24 mA
RI
Input Pull-up/down resistance
Vil=0V or
0.4
V
3.5
Vih=VCC
V
50
KΩ
5.5 DC Electrical Characteristics for 3.3 volts
operation
( Under
Recommended
Operating
Conditions and VCC=3.0v ~ 3.6v , Tj = -40OC
to
+85OC )
Table 5.5 DC Electrical Characteristics for 3.3 volts operation
SYMBOL
PARAMETER
CONDITIONS
VIL
Input Low Voltage
CMOS
VIL
Schmitt input Low Voltage
CMOS
VIH
Input Hight Voltage
CMOS
VIH
Schmitt input High Voltage
CMOS
VOL
Output low voltage
IOL=2, 4, 8, 12, 16, 24 mA
VOH
Output high voltage
IOH=2, 4, 8, 12, 16, 24 mA
RI
Input Pull-up/down resistance
Vil=0V or
Vih=VCC
MIN
TYP
MAX
UNITS
0.3*VCC
V
1.22
V
0.7*Vcc
V
2.08
V
0.4
2.3
V
V
75
KΩ
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5.6 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.
Figure 5.1 Crystal Oscillator Circuit Setup for Characterization
5.7 USB Transceiver Characteristics
RECOMMENDED OPERATING CONDITIONS
Table 5.6 USB Transceiver Characteristics
SYMBOL
VCC
PARAMETER
CONDITIONS
DC supply voltage
LIMITS
UNIT
MIN
MAX
3.0
3.6
V
VI
DC input voltage range
0
5.5
V
VI/O
DC input range for I/Os
0
VCC
V
VO
DC output voltage range
0
VCC
V
TAMB
See DC and AC
Operating ambient temperature
characteristics for
range in free air
individual device
0
70
˚
C
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ABSOLUTE MAXIMUM RATINGS (Notes 1 and 2)
In accordance with the Absolute Maximum Rating System, Voltages are referenced to GND (Ground=0v)
Table 5.7 Absolute Maximum Ratings
SYMBOL
PARAMETER
VCC
DC supply voltage
IIK
DC input diode current
VI
DC input voltage
CONDITIONS
LIMITS
MAX
-0.5
+6.5
V
-50
mA
-0.5
+5.5
V
-0.5
Vcc +0.5
V
+/-50
mA
Vcc +0.5
V
Vi<0
Note 3
UNIT
MIN
VI / O
DC input voltage range for
I/Os
IOK
DC output diode current
VO
DC output voltage
IO
DC output source sink current
for VP/VM and RCV pins
Vo=0 to Vcc
+/-15
mA
IO
DC output source or sink
current for D+/D- pins
Vo= 0 to Vcc
+/-50
mA
+/-100
mA
ICC, IGND
Vo> Vcc or Vo<0
Note 3
-0.5
DC Vcc or GND current
TSTO
Storage temperature range
PTOT
Power dissipation per
package
-60
+150
˚
C
mW
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.
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DC ELECTRICAL CHARACTERISTICS
Over recommended operating conditions.
Voltages are referenced to GND (Ground=0V).
Table 5.8 DC Electrical Characteristics
SYMBOL
VHYS
PARAMETER
TEST CONDITIONS
LIMITS
-400˚C to +850˚C
MIN
TYP
MAX
Hysteresis on inputs
Vcc=3.0V to 3.6V (Note 3)
VIH
HIGH level input
Vcc=3.0V to 3.6V (Note 3)
VIL
LOW level input
Vcc=3.0V to 3.6V (Note 3)
0.8
1.1
RoH
Output impedance (HIGH
state)
Note 2
28
34
43
ohm
RoL
Output impedance (LOW
state)
Note 2
28
35
43
ohm
VOH
HIGH level output
(Note 3)
2.2
2.4
2.8
2.7
VOL
LOW level output
(Note 3)
Vcc=3.0V
Vcc=3.0V
Vcc=3.0V
Vcc=3.0V
Vcc=3.0V
Vcc=3.0V
Io=6mA
Io=4mA
Io=100µA
Io=6mA
Io=4mA
Io=100µA
0.3
UNIT
0.4
0.5
V
1.5
2.0
V
V
V
0.3
0.7
0.4
0.2
V
330
600
µA
70
µA
14
mA
IQ
Quiescent supply current
Vcc=3.6V
Io=0
VI=Vcc
or
GND
Isup
Supply current in suspend
Vcc=3.6V
Io=0
VI=Vcc
or
GND
IFS
Active supply current (Full
Speed)
Vcc=3.3V
9
ILS
Active supply current
(Low Speed)
Vcc=3.3V
2
ILeak
Imput leakage current
Vcc=3.6V VI=5.5V or GND,
not for I/O Pins
IOFF
3-state output OFF-state
current
Vi=Vih or ViL; Vo=Vcc or GND
mA
+/-0.1
+/-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-.
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AC ELECTRICAL CHARACTERISTICS
GND=0V, tR = tF =3.0 ns; CL =50 pF; RL=500 Ohms
Table 5.9 AC Electrical Characteristics
SYMBOL
PARAMETER
WAVEFORM
LIMITS (TAMB)
00˚C to +250˚C
00˚C to +700˚C UNIT
MIN
TYP
MAX
MIN
MAX
tpLH
tpHL
VMO/VPO to D+/DFull Speed
1
0
0
trise
tfall
Rise and Fall Times
Full Speed
2
4
4
tRFM
Rise and Fall Time
Matching Full Speed
tpLH
tpHL
VMO/VPO to D+/DLow Speed
1
trise
tfall
Rise and Fall Times
Low Speed
2
tRFM
Rise and Fall Time
Matching Low Speed
9
9
90
120
120
12
12
0
0
14
14
ns
20
20
4
4
20
20
ns
110
90
110
%
300
300
ns
300
300
75
75
300
200
75
75
300
200
ns
70
130
70
130
%
tpLH
tpHL
D+/D- to RCV
3
9
9
16
16
16
16
ns
tpLH
tpHL
D+/D- to VP/VM
1
4
4
8
8
8
8
ns
tpHZ
tpZH
tpLZ
tpZL
OE# to D+/D- RL =
500ohm
4
12
12
10
10
12
12
10
10
ns
tsu
Setup for SPEED
5
0
Vcr
Crossover point1
3
1.3
ns
2.0
1.3
2.0
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.
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Figure 5.2 Electrical Characteristics Diagram
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5.8 ESD Test Results
Test Description: ESD Testing was performed on a Zapmaster system using the
Human-Body-Model (HBM) and Machine-Model (MM), according to MIL-STD 883 and
EIAJ IC-121 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
Table 5.10 ESD Data
Model
Mode
S/S
Target
Results
HBM
Vdd, Vss, I/C
15
6000V
PASS
MM
Vdd, Vss, I/C
15
200V
PASS
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5.9 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.
Figure 5.3 Latch-Up Test Results Diagram
Test Circuit: Positive Input/Output Overvoltage/Overcurrent
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Test Circuit: Negative Input/Output Overvoltage/Overcurrent
Supply Overvoltage Test
Table 5.11 Latch-Up Data
Mode
Voltage
Current
+
+
-
Voltage (V)/CUITENT(ma)
11.0
11.0
200
200
S/S
5
5
5
5
Results
Pass
Pass
Pass
Pass
9.0
5
Pass
Vdd - Vxx
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6.0 Mechanical Information
6.1 Normal Size Package (Body Size 209 mil)
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6.2 Small Size Package (Body Size 150 mil)
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【MEMO】
About Alcor Micro, Corp
Alcor Micro, Corp. designs, develops and markets highly integrated and advanced
peripheral semiconductor, and software driver solutions for the personal computer
and consumer electronics markets worldwide. We specialize in USB solutions and
focus on emerging technology such as USB and IEEE 1394. The company offers a
range of semiconductors including controllers for USB hub, integrated
keyboard/USB hub and USB Flash memory card reader…etc. Alcor Micro, Corp. is
based in Taipei, Taiwan, with sales offices in Taipei, Japan, Korea and California.
Alcor Micro is distinguished by its ability to provide innovative solutions for
spec-driven products. Innovations like single chip solutions for traditional multiple
chip products and on-board voltage regulators enable the company to provide
cost-efficiency solutions for the computer peripheral device OEM customers
worldwide.
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