Cypress CY7C65100 Four-port universal serial bus fixed-function hub controller Datasheet

CY7C65100
CY7C65100
Four-port Universal Serial Bus
Fixed-function Hub Controller
Cypress Semiconductor Corporation
Document #: 38-08021 Rev. **
•
3901 North First Street
•
San Jose
•
CA 95134 • 408-943-2600
Revised June 6, 2002
CY7C65100
TABLE OF CONTENTS
1.0 FEATURES ...................................................................................................................................... 3
2.0 FUNCTIONAL OVERVIEW .............................................................................................................. 3
3.0 PRODUCT SUMMARY .................................................................................................................... 4
3.1 Logic Block Diagram ...................................................................................................................... 4
3.2 Pin Configuration ............................................................................................................................ 4
3.3 Pin Assignments ............................................................................................................................. 5
4.0 CLOCKING ....................................................................................................................................... 5
5.0 USB OVERVIEW .............................................................................................................................. 5
5.1 USB SIE ........................................................................................................................................... 5
5.2 Hub Design ...................................................................................................................................... 6
5.3 Vendor ID and Product ID .............................................................................................................. 6
6.0 APPLICATION DIAGRAMS ............................................................................................................ 7
6.1 USB Standalone Hub Schematics ................................................................................................. 8
7.0 ABSOLUTE MAXIMUM RATINGS .................................................................................................. 9
8.0 ELECTRICAL CHARACTERISTICS ................................................................................................ 9
9.0 SWITCHING CHARACTERISTICS ............................................................................................... 10
10.0 ORDERING INFORMATION ........................................................................................................ 10
11.0 PACKAGE DIAGRAM .................................................................................................................. 11
LIST OF FIGURES
Figure 4-1. Clock Oscillator On-chip Circuit ....................................................................................... 5
Figure 6-1. USB Standalone Hub Application Diagram...................................................................... 7
Figure 9-1. Clock Timing ..................................................................................................................... 10
Figure 9-2. USB Data Signal Timing................................................................................................... 10
LIST OF TABLES
Table 3-1. Pin Assignments ................................................................................................................ 5
Document #: 38-08021 Rev. **
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CY7C65100
1.0
Features
• Fixed-function four-port USB hub devices with integrated hub repeater, hub controller, Serial Interface Engine (SIE),
and USB transceivers
• USB Specification Compliance
— Conforms to USB Specification, Rev. 1.1
•
•
•
•
•
•
•
•
— Complies with the USB HUB Device Class
Supports self-powered and bus-powered applications
Individual downstream port power switching
Individual downstream port overcurrent detection
Integrated USB transceivers reduce EMI
Internal 48-MHz phase-locked loop (PLL) reduces design cost by requiring only an external 6-MHz crystal
Operating voltage from 4.0V–5.5V DC
Operating temperature from 0°–70° Celsius
Available in a space-saving 28-lead SOIC package
2.0
Functional Overview
The CY7C65100 series offers high-performance fixed-function Universal Serial Bus (USB) hub devices that comply with USB
Specification, Rev. 1.1. Up to four downstream USB ports are available to expand the USB attachment points available in your
PC system. These self-contained devices require no firmware development for your design, thereby reducing the design risk
associated with some microcontroller solutions. These Application Specific Standard Products (ASSP) can improve time-tomarket in a number of USB designs, including standalone hubs, motherboard hubs, and monitor hubs.
The CY7C65100 series supports self-powered or bus-powered applications. Power management for all downstream ports supports power-switching and overcurrent detection with individual port control. The four downstream ports support both full-speed
(12-Mbps signaling rate) and low-speed (1.5-Mbps signaling rate) devices. The CY7C65100 sereis has a reduced frequency (6MHz) crystal oscillator for lower system cost as well as improved EMI performance. The four-port CY7C65100 series is available
in a cost-effective and space-saving 28-lead SOIC package.
Document #: 38-08021 Rev. **
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CY7C65100
3.0
Product Summary
3.1
Logic Block Diagram
D+[0] D-[0]
USB 1.1
Xcvr
USB
Serial
Interface
Engine
PLL
USB Hub Controller
Upstream
USB Port
USB Hub Repeater
Downstream Port 1
USB 1.1
Xcvr
Port
Power
Control
Downstream Port 2
USB 1.1
Xcvr
Downstream Port 3
Port
Power
Control
USB 1.1
Xcvr
Port
Power
Control
Downstream Port 4
USB 1.1
Xcvr
Port
Power
Control
D+[1] D-[1] PWR[1] OC[1] D+[2] D-[2] PWR[2] OC[2] D+[3] D-[3] PWR[3] OC[3] D+[4] D-[4] PWR[4] OC[4]
3.2
Pin Configuration
CY7C65100
28-pin SOIC
Document #: 38-08021 Rev. **
XTALOUT
1
28
VCC
XTALIN
2
27
PSTAT[3/4]
VREF
3
26
PSTAT[1/2]
GND
4
25
PWR_SEL
D+[0]
5
24
D–[3]
D–[0]
6
23
D+[3]
D+[1]
7
22
D–[4]
D–[1]
8
21
D+[4]
D+[2]
9
20
GND
D–[2]
10
19
GND
OC[4]
11
18
PWR[1]
OC[2]
12
17
PWR[3]
PWR[4]
13
16
OC[1]
PWR[2]
14
15
OC[3]
Page 4 of 12
CY7C65100
3.3
Pin Assignments
Table 3-1. Pin Assignments
Name
I/O
Pin
D+[0], D–[0]
I/O
5,6
D+[1], D–[1]
I/O
7,8
Downstream port 1, USB differential data
D+[2], D–[2]
I/O
9,10
Downstream port 2, USB differential data
D+[3], D–[3]
I/O
23,24
Downstream port 3, USB differential data
D+[4], D–[4]
Description
Upstream port, USB differential data
I/O
21,22
OUT
18,14,17,13
Downstream port power enable output
OC[1]–OC[4]
IN
16,12,15,11
Downstream port power over-current detection signals
XTALIN
IN
2
PWR[1]– PWR[4]
Downstream port 4, USB differential data
6-MHz crystal or external clock input
XTALOUT
OUT
1
6-MHz crystal out
VCC
PWR
28
Voltage supply
GND
GND
4,19,20
VREF
IN
3
Input for external 3.3V supply voltage for the upstream and downstream differential data output buffers and the D+ pull-up
PWR_SEL
IN
25
Bus or self-power function select input
OUT
26,27
PSTAT[1/2], PSTAT[3/4]
4.0
Ground
Downstream port LED status enable
Clocking
XTALOUT
(pin 1)
XTALIN
(pin 2)
to internal PLL
30 pF
30 pF
Figure 4-1. Clock Oscillator On-chip Circuit
XTALIN and XTALOUT are the clock pins to the CY7C65100 series. The user can connect either an external oscillator or a crystal
to these pins. A 6-MHz fundamental crystal can be connected to these pins to provide a reference frequency for the internal PLL.
When using an external crystal, keep PCB traces between the chip leads and crystal as short as possible (less than 2 cm). A
ceramic resonator is not an adequate clock source to meet the timing specifications of a high-speed USB function and therefore
cannot be used with these parts. An external 6-MHz clock can be applied to the XTALIN pin if the XTALOUT pin is left open.
Please note that grounding the XTALOUT pin when driving XTALIN with an oscillator will not work as the internal clock is effectively
shorted to ground.
5.0
USB Overview
The USB hardware includes a USB Hub repeater with one upstream port and up to four downstream ports. An external series
resistor of Rext = 20Ω (± 5%) must be placed in series with all upstream and downstream USB I/O in order to meet the USB driver
impedance requirements as defined by the USB specification (see Figure 6-1).
5.1
USB SIE
The SIE allows the CY7C65100 series to communicate with the USB host through the USB repeater portion of the hub. The SIE
handles the following USB bus activity independently of the hub microcontroller:
• Bit stuffing/unstuffing
• Checksum generation/checking
Document #: 38-08021 Rev. **
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CY7C65100
• ACK/NAK/STALL
• TOKEN type identification
• Address checking.
The following protocol handling is done at a higher level by the Hub Control Block:
• Coordinate enumeration by responding to SETUP packets
• Fill and empty the FIFOs
• Suspend/Resume coordination
• Verify and select DATA toggle values
• Port power control and over-current detection.
5.2
Hub Design
The power switching and over-current detection of downstream ports is managed by control pins connected to an external power
switch device (see Figure 6-1). The active-LOW PWR[n] output pins of the CY7C65100 series are connected to the respective
external power switch’s port power enable signals. (Note that each port power output pin of the external power switch must be
bypassed with an electrolytic or tantalum capacitor as required by the USB specification. These capacitors supply the inrush
currents which occur during downstream device hot-attach events.) The active-LOW OC[n] pins of the CY7C65100 series are
connected to the respective external power switch’s port over-current indication (output) signals. Upon detecting an over-current
condition, the hub device reports the over-current condition to the host and disables (sets to logic HIGH) the respective PWR[n]
signal connected to the external power device.
5.3
Vendor ID and Product ID
The CY7C65100 Series will enumerate with the default Vendor ID and Product ID as follows.
Bus-powered
Self-powered
Vendor ID
0x04b4
0x04b4
Product ID
0x5204
0x5203
Pin 25 (PWR_SEL) is a strapping option that selects the device’s power configuration report (PWR_SEL = GND for self-powered,
PWR_SEL = Vcc for bus-powered).
For high-volume business, Cypress has the capability to factory-program a Custom Vendor ID and Product ID. Please contact
your local Cypress sales office for more information.
Document #: 38-08021 Rev. **
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CY7C65100
6.0
Application Diagrams
+3.3V
+5.0V
1.5K
VCC
(TO HOST)
D+
D–
D+[0]
D–[0]
20
20
+5.0V
+3.3V
VREF
XTALIN
XTALOUT
IN
+5.0V
100K
PWR1
OUTA
PWR1
PWR[1]
OC[1]
ENA
FLGA
D+[1]
D–[1]
20
20
D+
D-
15K
15K
Port 1
+5.0V
100K
PWR2
PWR2
OUTB
PWR[2]
OC[2]
ENB
FLGB
D+[2]
D–[2]
20
20
+5.0V
15K
100K
PWR3
PWR[3]
OC[3]
ENC
FLGC
Port 2
CY7C65100
Series
PWR3
OUTC
VCC
D+
D-
15K
Power
Switch
VCC
D+[3]
D–[3]
20
20
VCC
D+
D-
15K
15K
Port 3
+5.0V
100K
PWR4
PWR4
OUTD
PWR[4]
OC[4]
END
FLGD
D+[4]
D–[4]
20
20
D+
D-
15K
PWR1
1K
PWR2
1K
PWR3
1K
PWR4
1K
VCC
15K
Port 4
PSTAT[1/2]
PWR_SEL*
PSTAT[3/4]
* PWR_SEL = VCC for Bus-powered Applications
PWR_SEL = GND for Self-powered Applications
Figure 6-1. USB Standalone Hub Application Diagram
Document #: 38-08021 Rev. **
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CY7C65100
6.1
USB Standalone Hub Schematics
Document #: 38-08021 Rev. **
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CY7C65100
7.0
Absolute Maximum Ratings
Storage Temperature ................................. –65°C to +150°C
Ambient Temperature with Power Applied ...... –0°C to +70°C
Supply voltage on VCC relative to VSS ........... –0.5V to +7.0V
DC Input Voltage................................. –0.5V to +VCC + 0.5V
Power Dissipation .....................................................500 mW
Static Discharge Voltage ..........................................> 2000V
Latch-up Current ................................................... > 200 mA
Max Output Sink Current into PWR[n] Pins
(Vout = 2.0V) ............................................................... 60 mA
8.0
Electrical Characteristics FOSC = 6 MHz; Operating Temperature = 0° to 70°C, VCC = 4.0V to 5.5V
Parameter
Description
Conditions
Min.
Max.
Unit
3.15
3.45
V
50
mA
10
mA
General
Vref
Reference Voltage
3.3V ± 5%
ICC
VCC Operating Current
IREF
Vref Operating Current
ISB1
Standby Current
IIL
Input Leakage Current
any pin
Vdi
Differential Input Sensitivity
|(D+)–(D–)|
Vcm
Differential Input Common Mode Range
0.8
2.5
V
Vse
Single Ended Receiver Threshold
0.8
2.0
V
Cin
Transceiver Capacitance
20
pF
Ilo
High-Z State Data Line Leakage
–10
10
µA
No USB Traffic
50
µA
1
µA
USB Interface
0V < Vin < 3.3V
RD+
USB Power Setting Pull-up Resistor
Rext1
External USB Pull-down Resistor
Downstream data lines
Rext2
External USB Series Resistor
0.2
V
1.425
1.575
KW
14.25
15.75
KW
In series with each USB pin
19
21
W
Linear ramp: VCC=0 to Operating Voltage[1]
0
100
ms
2.8
3.6
V
Power-On Reset
tvccs
VCC Ramp Rate
USB Upstream/Downstream Port
Voh
Static Output HIGH
RL of 15 kΩ± 5% to Gnd
Vol
Static Output LOW
RL of 1.5 kΩ± 5% to 3.6V
Vcrs
Crossover Voltage
Zo
USB Driver Output Impedance
Including Rext
0.3
V
1.3
2.0
V
28
44
W
OC[n] Pins
VIL
Input LOW Threshold Voltage
VIH
Input HIGH Threshold Voltage
0.8
2.0
V
V
PWREN[n] Pins
IPWR[n]
PWR[n] Sink Current (typical 7 mA)
Vout = 2.0V DC
3.5
10.6
mA
Note:
1. Power-on Reset will occur whenever the voltage on VCC is below approximately 2.5V.
Document #: 38-08021 Rev. **
Page 9 of 12
CY7C65100
Parameter
Description
Min.
Max.
Unit
Clock Source
fOSC
Clock Rate
5.985
6.015
MHz
tcyc
Clock Period
166.25
167.08
nsec
tCH
Clock HIGH Time
0.45 tCYC
ns
tCL
Clock LOW Time
0.45 tCYC
ns
USB Full-speed Signaling
tr
Transition Rise Time
4
tf
Transition Fall Time
trfm
Rise/Fall Time Matching; (tr/tf)
tdrate
Full-speed Data Rate
20
ns
4
20
ns
90
110
%
11.97
12.03
Mb/s
USB Low-speed Signaling
tr
Transition Rise Time
75
300
ns
tf
Transition Fall Time
75
300
ns
trfm
Rise/Fall Time Matching; (tr/tf)
tdrate
Low-speed Data Rate
9.0
80
120
%
1.4775
1.5225
Mb/s
Switching Characteristics
tCYC
tCH
CLOCK
tCL
Figure 9-1. Clock Timing
tR
D+
tF
90%
90%
10%
10%
D−
Figure 9-2. USB Data Signal Timing
10.0
Ordering Information
Ordering Code
Package Name
Description
Operating Range
S21
28-pin SOIC
Commercial
CY7C65100-SC
Document #: 38-08021 Rev. **
Page 10 of 12
CY7C65100
11.0
Package Diagram
28-lead (300-mil) Molded SOIC S21
51-85026-A
All product and company names mentioned in this document are the trademarks of their respective holders.
Document #: 38-08021 Rev. **
Page 11 of 12
© Cypress Semiconductor Corporation, 2002. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use
of any circuitry other than circuitry embodied in a Cypress Semiconductor product. Nor does it convey or imply any license under patent or other rights. Cypress Semiconductor does not authorize
its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress
Semiconductor products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress Semiconductor against all charges.
CY7C65100
Document Title: CY7C65100 Four-port Universal Serial Bus Fixed-function Hub Controller
Document Number: 38-08021
REV.
ECN NO.
Issue
Date
Orig. of
Change
**
113849
06/25/02
BON
Document #: 38-08021 Rev. **
Description of Change
New Data Sheet
Page 12 of 12
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