SMSC USB97C202-MN-02

USB97C202
USB 2.0
ATA/ ATAPI Controller
Datasheet
Product Features
ƒ
2.5 Volt, Low Power Core Operation
ƒ
3.3 Volt I/O with 5V input tolerance
ƒ
ƒ
Complete USB Specification 2.0 Compatibility
− Includes USB 2.0 Transceiver
− A Bi-directional Control and a Bi-directional Bulk
Endpoint are provided.
ƒ
ƒ
Internal or External Program Memory Interface
− 48K Byte Internal ROM or optional 64K Byte
External Code Space using Flash, SRAM, or
EPROM Memory
Complete System Solution for interfacing ATA or
ATAPI devices to USB 2.0 bus
− Supports USB Mass Storage Compliant Bootable
BIOS
− Supports ATA6 Drive capacities up to 2048GB
− True UDMA Mode 4 transfer rates
− Support for ATAPI Devices:
- CD-ROM
- CD-R
- CD-RW
- DVD
ƒ
Double Buffered Bulk Endpoint
− Bi-directional 512 Byte Buffer for Bulk Endpoint
− 64 Byte RX Control Endpoint Buffer
− 64 Byte TX Control Endpoint Buffer
ƒ
On Board 12Mhz Crystal Driver Circuit
ƒ
Internal PLL for 480Mhz USB2.0 Sampling,
30Mhz MCU clock, and 60Mhz ATA clock
ƒ
Supports firmware upgrade via USB bus if “boot
block” Flash program memory is used for optional
external program memory
ƒ
7 GPIOs for special function use: LED indicators,
button inputs, etc.
− Inputs capable of generating interrupts with either
edge sensitivity
− USB High Speed LED
− Serial EEPROM interface for VID/PID/Serial Number
Customization
- DVD/R/W
8051 8 bit microprocessor
− Provides low speed control functions
− 30 Mhz execution speed at 4 cycles per instruction
average
− 768 Bytes of internal SRAM for general purpose
scratchpad or program execution while re-flashing
external ROM
ƒ
100 Pin STQFP (12x12x1.4 body, 2mm footprint)
package
ORDERING INFORMATION
Order Number(s):
USB97C202-MN-02 for 100 pin STQFP package
SMSC USB97C202
Page 1
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
80 Arkay Drive
Hauppauge, NY 11788
(631) 435-6000
FAX (631) 273-3123
Copyright © SMSC 2004. All rights reserved.
Circuit diagrams and other information relating to SMSC products are included as a means of illustrating typical applications. Consequently, complete
information sufficient for construction purposes is not necessarily given. Although the information has been checked and is believed to be accurate, no
responsibility is assumed for inaccuracies. SMSC reserves the right to make changes to specifications and product descriptions at any time without
notice. Contact your local SMSC sales office to obtain the latest specifications before placing your product order. The provision of this information
does not convey to the purchaser of the described semiconductor devices any licenses under any patent rights or other intellectual property rights of
SMSC or others. All sales are expressly conditional on your agreement to the terms and conditions of the most recently dated version of SMSC's
standard Terms of Sale Agreement dated before the date of your order (the "Terms of Sale Agreement"). The product may contain design defects or
errors known as anomalies which may cause the product's functions to deviate from published specifications. Anomaly sheets are available upon
request. SMSC products are not designed, intended, authorized or warranted for use in any life support or other application where product failure
could cause or contribute to personal injury or severe property damage. Any and all such uses without prior written approval of an Officer of SMSC
and further testing and/or modification will be fully at the risk of the customer. Copies of this document or other SMSC literature, as well as the Terms
of Sale Agreement, may be obtained by visiting SMSC’s website at http://www.smsc.com. SMSC is a registered trademark of Standard Microsystems
Corporation (“SMSC”). Product names and company names are the trademarks of their respective holders.
SMSC DISCLAIMS AND EXCLUDES ANY AND ALL WARRANTIES, INCLUDING WITHOUT LIMITATION ANY AND ALL IMPLIED WARRANTIES
OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, TITLE, AND AGAINST INFRINGEMENT AND THE LIKE, AND ANY AND
ALL WARRANTIES ARISING FROM ANY COURSE OF DEALING OR USAGE OF TRADE.
IN NO EVENT SHALL SMSC BE LIABLE FOR ANY DIRECT, INCIDENTAL, INDIRECT, SPECIAL, PUNITIVE, OR CONSEQUENTIAL DAMAGES;
OR FOR LOST DATA, PROFITS, SAVINGS OR REVENUES OF ANY KIND; REGARDLESS OF THE FORM OF ACTION, WHETHER BASED ON
CONTRACT; TORT; NEGLIGENCE OF SMSC OR OTHERS; STRICT LIABILITY; BREACH OF WARRANTY; OR OTHERWISE; WHETHER OR
NOT ANY REMEDY OF BUYER IS HELD TO HAVE FAILED OF ITS ESSENTIAL PURPOSE, AND WHETHER OR NOT SMSC HAS BEEN
ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
SMSC USB97C202
Page 2
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
TABLE OF CONTENTS
CHAPTER 1
GENERAL DESCRIPTION................................................................................................................4
CHAPTER 2
PIN TABLE........................................................................................................................................5
CHAPTER 3
PIN CONFIGURATION .....................................................................................................................6
CHAPTER 4
BLOCK DIAGRAM............................................................................................................................7
CHAPTER 5
PIN DESCRIPTIONS.........................................................................................................................8
5.1
Buffer Type Descriptions................................................................................................................ 11
CHAPTER 6
TYPICAL APPLICATION ................................................................................................................12
CHAPTER 7
DC PARAMETERS .........................................................................................................................13
7.1 Maximum Guaranteed Ratings ...................................................................................................... 13
7.1.1 Capacitance TA = 25°C; FC = 1MHz; VDD = 2.5V ...................................................................... 15
CHAPTER 8
8.1
8.2
AC SPECIFICATIONS ....................................................................................................................16
ATA/ATAPI..................................................................................................................................... 16
USB2.0 Timing ............................................................................................................................... 16
CHAPTER 9
PACKAGE OUTLINE ......................................................................................................................17
LIST OF FIGURES
Figure 3.1 – 100 PIN STQFP .........................................................................................................................................6
Figure 9.1 - 100 Pin STQFP Package Outline, 12x12x1.4 Body, 2MM Footprint (Rev A) ............................................17
LIST OF TABLES
Table 5.1 – USB97C202 Pin Descriptions......................................................................................................................8
Table 5.2 - USB97C202 Buffer Type Descriptions .......................................................................................................11
Table 7.1 - DC Electrical Characteristics .......................................................................................................................13
Table 9.1 – 100 Pin STQFP Package Parameters (Rev A)..........................................................................................17
SMSC USB97C202
Page 3
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
Chapter 1
General Description
The USB97C202 is a USB2.0 Mass Storage Class Peripheral Controller intended for use with standard
ATA-5 and -6 hard drives and standard ATAPI-5 devices.
The device consists of a USB 2.0 PHY and SIE, buffers, Fast 8051 microprocessor with expanded
scratchpad and 768 of program SRAM, internal 48 KB program ROM, and an ATA-66 compatible
interface.
Provisions for optional external Flash Memory up to 64K bytes for program storage is provided. A serial
EEPROM which can be modified via USB from the host provides unique VID/PID/Serial numbers, as well
as optional configuration information.
Internal 768 Bytes of scratchpad SRAM are also provided.. This internal SRAM can also be used for
program storage to implement program upgrade via USB download to external “boot block” Flash program
memory, if desired.
Seven GPIO pins are provided for controlling external power control elements and sensing specialized
drive functions. Provisions are made to allow dynamic attach and re-attach to the USB bus to allow hot
swap of drives to be implemented.
ATA-6 HDD or
ATAPI-5 Optical drive
USB2.0
BUS
USB97C202
ATA-66
HS Indicator
Serial EEPROM
(VID/PID/options)
SMSC USB97C202
Page 4
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
Chapter 2
Pin Table
DISK DRIVE INTERFACE (27 Pins)
IDE_D0
IDE_D1
IDE_D2
IDE_D4
IDE_D5
IDE_D6
IDE_D8
IDE_D9
IDE_D10
IDE_D12
IDE_D13
IDE_D14
IDE_nIOR
IDE_nIOW
IDE_IRQ
IDE_DRQ
IDE_nCS0
IDE_nCS1
IDE_SA1
IDE_SA2
IORDY
USB INTERFACE (7 Pins)
USBD+
USBDLOOPFLTR
RTERM
FS+
FSMEMORY/IO INTERFACE (28 Pins)
MD0
MD1
MD2
MD4
MD5
MD6
MA0
MA1
MA2
MA4
MA5
MA6
MA8
MA9
MA10
MA12
MA13
MA14
nMRD
nIOR
nMWR
MISC (15 Pins)
ROMEN
GPIO1/HS
GPIO2/EE_CS
GPIO4/EE_DIO
GPIO5/ATA RESET
GPIO6/A16
XTAL1/CLKIN
XTAL2
nRESET
TST_OUT/DBGOUT
nTESTEN
CLKOUT
POWER, GROUNDS, and NO CONNECTS (23 Pins)
SMSC USB97C202
Page 5
DATASHEET
IDE_D3
IDE_D7
IDE_D11
IDE_D15
IDE_DACK
IDE_SA0
RBIAS
MD3
MD7
MA3
MA7
MA11
MA15
nIOW
GPIO3/VBUS
GPIO7/EE_CLK
nTEST/nDBGSTR
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
Pin Configuration
ROMEN
GPIO1
GPIO2
GPIO3
GND
GPIO4
GPIO5
GPIO6
GPIO7
nTEST0
nTEST1
nTEST2
VDDIO
IDE_D8
IDE_D7
IDE_D9
VDD
IDE_D6
IDE_D10
GND
IDE_D5
IDE_D11
IDE_D4
VDDIO
IDE_D12
Chapter 3
75
IDE_D3
IDE_D13
IDE_D2
GND
IDE_D14
IDE_D1
IDE_D15
IDE_D0
VDDIO
IDE_DRQ
IDE_nIOW
IDE_nIOR
IORDY
GND
IDE_DACK
IDE_IRQ
IDE_SA1
IDE_SA0
VDD
IDE_SA2
IDE_nCS0
IDE_nCS1
VDDIO
nMWR
nMRD
USB97C202
1
25
nIOR
nIOW
VDDIO
CLKOUT
MA15
MA14
GND
MA13
MA12
VDD
MA11
MA10
MA9
MA8
VDDIO
MA7
MA6
MA5
MA4
N.C.
MA3
MA2
MA1
MA0
GND
RBIAS
VDDA
FS+
USB+
USBFSRTERM
VSSA
XTAL1/CLKIN
XTAL2
VSSP
LOOPFLTR
VDDP
N.C.
N.C.
MD7
MD6
MD5
MD4
GND
MD3
MD2
MD1
MD0
nRESET
51
Figure 3.1 – 100 PIN STQFP
SMSC USB97C202
Page 6
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
Chapter 4
Block Diagram
Auto address generators
512 Bytes EP2 TX/RX Buffer B
EP0TX_BC
Address
EP0RX_BC
Address
1.25KB
SRAM
512 Bytes EP2 TX/RX Buffer A
Address
64 Bytes EP1RX
64 Bytes EP1TX
64 Bytes EP0RX
Address
RAMWR_A/B
Address
RAMRD_A/B
Address
Address MUX
Address
Data Buss
EP1TX_BC
EP1RX_BC
64 Bytes EP0TX
32 Bit
60MHz
Latch phase 1
Latch phase 0
Latch phase 2
Future phase 3
Clocked byPhase 0 Clock
SIE
( Serial Interface Engine )
32 bit 15MHz Data Buss
Data @ 32 bit
15MHz
ATA/ATAPI
Drive
ATA-66
Interface
XDATA
8 bits ( Address and Data busses )
Address Register
Clocked byPhase 2 Clock
SIE Control Regs
USB 2.0 PHY
( Transciever )
GPIO
Configuration and Control
768 Byte
Program/Scratchpad
SRAM
Clock Generation
Interrupt Controller
7 pins
7 pins
48KB ROM
Osc
MEM/IO Bus
XTAL
OPTIONAL
External PHY
Program Memory/ IO
Bus
29pins
FAST 8051
CPU CORE
CLOCKOUT
12 MHz
Debug
Serial 2 wire ( Data/Strobe)
Clocked byPhase 1 Clock
SMSC USB97C202
ROMEN
Page 7
Revision 1.2 (02-04-04)
DATASHEET
2 pins
USB 2.0 ATA/ATAPI Controller
Datasheet
Chapter 5
Pin Descriptions
Table 5.1 – USB97C202 Pin Descriptions
DISK DRIVE INTERFACE
IS
This pin is the active high DMA request from
the ATA/ATAPI interface.
IDE DMA
Request
IDE_DRQ
IDE IO Read
Strobe
IDE_nIOR
O20
This pin is the active low read signal for the
interface.
IDE Register
Address 1
IDE_SA1
O20
This pin is the register select address bit 1
signal for the ATA/ATAPI interface.
IDE Register
Address 0
IDE_SA0
O20
This pin is the register select address bit 0
signal for the ATA/ATAPI interface.
IDE Register
Address 2
IDE_SA2
O20
This pin is the register select address bit 2
signal for the ATA/ATAPI interface.
IDE Data
IDE_D15
IO20
This pin is the bi-directional data bus bit 15
signal for the ATA/ATAPI interface.
IDE IO Write
Strobe
IDE_nIOW
O20
This pin is active low write signal for the
ATA/ATAPI interface.
O20
This pin is the active low DMA acknowledge
signal for the ATA/ATAPI interface.
IDE DMA
IDE_nDACK
Acknowledge
IDE Interrupt
Request
IDE_IRQ
IS
This pin is the active high interrupt request
signal for the ATA/ATAPI interface.
IDE Data
IDE_D13
IO20
This pin is the bi-directional data bus bit 13
signal for the ATA/ATAPI interface.
IDE Data
IDE_D14
IO20
IDE Chip
Select 0
IDE_nCS0
O20
This pin is the bi-directional data bus bit 14
signal for the ATA/ATAPI interface.
.
This pin is the active low chip select 0 signal for
the ATA/ATAPI interface.
IDE Chip
Select 1 0
IDE_nCS1
O20
This pin is the active low select 1 signal for the
ATA/ATAPI interface.
IDE Data
IDE_D[0:12]
IO20
IO Ready
IORDY
These pins are bits 0-12 of the ATA/ATAPI bidirectional data bus.
This pin is the active high IORDY signal from
the IDE drive.
SMSC USB97C202
I
Page 8
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
USB Bus
Data
USB
Transceiver
Filter
USB
Transceiver
Bias
Termination
Resistor
Full Speed
USB Data
USBUSB+
LOOPFLTR
RBIAS
RTERM
FSFS+
Memory Data MD[7:0]
Bus
Memory
Address Bus
Memory Write
Strobe
Memory Read
Strobe
IO Read
Strobe
IO Write
Strobe
USB INTERFACE
IO-U
These pins connect to the USB bus data
signals.
MA[15:0]
nMWR
IO-U
MEMORY/IO INTERFACE
IO12PU When ROMEN=0, these signals are used to
transfer data between the internal CPU and the
external program memory. When ROMEN=1, a
weak internal pull up is activated to prevent
these pins from floating.
O12
These signals address memory locations within
the external memory.
O12
Program Memory Write; active low
nMRD
O12
Program Memory Read; active low
nIOR
O12
XDATA space Read; active low
nIOW
O12
XDATA space Write; active low
XTAL1/
Crystal
Input/External CLKIN
Clock Input
ICLKx
Crystal Output XTAL2
OCLKx
Clock Output CLKOUT
O8
Internal ROM ROMEN
Enable
IP
SMSC USB97C202
This pin provides the ability to supplement the
internal filtering of the transceiver with an
external network, if required.
A 9.09 Kohm precision resistor is attached
from ground to this pin to set the transceiver’s
internal bias currents.
A precision 1.5Kohm precision resistor is
attached to this pin from a 3.3V supply.
These pins connect to the USB- and USB+
pins through 31.6 ohm series resistors.
MISC
12Mhz Crystal or external clock input.
This pin can be connected to one terminal of
the crystal or can be connected to an external
12Mhz clock when a crystal is not used.
12Mhz Crystal
This is the other terminal of the crystal, or left
open when an external clock source is used to
drive XTAL1/CLKIN. It may not be used to
drive any external circuitry other than the
crystal circuit.
This pin produces a 30Mhz clock signal
independent of the processor clock divider. It is
held inactive and low whenever the internal
processor clock is stopped or is being obtained
from the ring oscillator.
When left unconnected or tied high, the
USB97C202 uses the internal ROM for
program execution. When tied low, an external
program memory should be connected to the
memory/data bus. The state of this pin latched
internally on the rising edge of nRESET.
Page 9
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
MISC
These general purpose pins may be used
either as inputs, edge sensitive interrupt inputs,
or outputs. When using internal ROM mode,
these pins have the following assignments:
GPIO1: USB HS Indicator; active high
GPIO2: Serial EEPROM (93LC66 type) Chip
Select
GPIO3: USB VBUS Detect Input
GPIO4: Serial EEPROM Data In/Out
GPIO5: ATA Drive Reset
GPIO6: A16 control line for external program
Flash memory when using firmware upgrade
capability (external ROM operation only)
GPIO7: Serial EEPROM Clock output
RESET input nRESET
IS
This active low signal is used by the system to
reset the chip. The active low pulse should be
at least 100ns wide.
Test input
nTest[0:2]
IP
These signals are used for testing the chip.
User should normally leave them unconnected.
For board testing, all pads except these test
inputs are included in an XNOR chain, such
that by tying nTEST2 low, nIOR will reflect the
toggling of a signal on each pin. Circuit board
continuity of the pin solder connections after
assembly can be checked in this manner
POWER, GROUNDS, and NO CONNECTS
VDD
+2.5V Core power
VDDIO
+3.3V I/O power
VDDP
+2.5 Analog power
VSSP
Analog Ground Reference
VDDA
+3.3V Analog power
VSSA
Analog Ground Reference
GND
Ground Reference
NC
No Connect. These pins should not be
connected externally.
General
Purpose I/O
SMSC USB97C202
GPIO[1:7]
IO20
Page 10
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
5.1
Buffer Type Descriptions
Table 5.2 - USB97C202 Buffer Type Descriptions
BUFFER
I
IS
IP
IO8
O8
O12
IO12PU
IO12
IO20
O20
O20PU
ICLKx
OCLKx
I/O-U
SMSC USB97C202
DESCRIPTION
Input
Input with Schmitt trigger
Input with weak pull-up
Input/Output with 8 mA drive
Output with 8mA drive
Output with 12mA drive
Input/Output with 12 ma drive and
controlled weak pull up
Input/Output with 12 ma drive
Input/output with 20mA drive
Output with 20mA drive
Output with 20mA drive and weak pullup
XTAL clock input
XTAL clock output
Defined in USB specification
Page 11
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
Chapter 6
Typical Application
IDE_D[0:15]
P1
IDE_DRQ
IDE_nIOW
IDE_nIOR
IORDY
IDE_DACK
IDE_IRQ
IDE_SA1
IDE_SA0
IDE_nCS0
IDE_D3
IDE_D12
IDE_D2
IDE_D13
IDE_SA2
IDE_nCS1
1
IDE_D1
IDE_D14
IDE_D0
IDE_D15
IDE_D8
IDE_D9
IDE_D10
IDE_D11
IDE_D12
IDE_D13
IDE_D14
IDE_D15
C1
0.047uF
25V
10%
2
DVDD
R8
4.75K
1/8W
1%
2
2
R7
1.0K
1/8W
1%
DVDD
R6
2.21K
1/8W
1%
2
1
R7
1.0K
1/8W
1%
R9
332
1/8W
1%
12
2
DVDD
1
2
R2
5.62K
1/8W
1%
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
1
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
IDE_D7
IDE_D6
IDE_D5
IDE_D4
IDE_D3
IDE_D2
IDE_D1
IDE_D0
1%
1
1/8W
IDE_D5
IDE_D10
IDE_D4
IDE_D11
IDE supports :
Mode 1, Mode 2, Mode 3, Mode 4
Ultra DMA 33/66
Primary IDE
100
1
R1
nRESET
1
IDE_D7
IDE_D8
IDE_D6
IDE_D9
LED1
T1 GREEN
2
GPIO3
R13
10K
1M
R14
VDD
VCCEXT
P2
DVDD
FS-
FS+
C2
.1uF
C3
.1uF
C4
.1uF
C5
.1uF
C6
.1uF
C7
.1uF
C8
.1uF
C9
.1uF
C10
.1uF
1
R11 31.6
2
USB-
1
R12 31.6
2
USB+
1
2
3
4
VCC
DD+
GND
USB TYPE B
3.3V Regulator
VCCEXT
R15
9.09K
1/10W
1%
3
+
2
IDE_nIOW
VIN
GND
1
VR1
C11
10uF
R16
USB+
MA15
IDE_IRQ
IDE_D14
IDE_DRQ
IDE_D15
7
6
5
VSS
DO
82
N.C.
MD5
MD6
59
8
9
7
11
12
13
14
16
15
17
18
19
21
95
22
23
24
32
99
98
97
96
94
88
MA11
MA10
MA9
MA8
MA7
C18
10uF
13
14
15
17
18
19
20
21
MA2
MA1
MA0
2
30
VDDIO
32
16
3
VOUT
2
C14
.1uF
C15
.1uF
C16
.1uF
C17
.1uF
VDD
+
C19
10uF
MA[0:15]
MA6
MA5
MA4
MA3
nRESET
2
VIN
MA13
MA12
89
93
92
MD7
VDDIO
N.C.
91
20
28
nMRD
26
GND
nMWR
25
nIOW
27
nIOR
2
nTEST2
1
CLKOUT
VSSP
VDD
XTAL2
XTAL1/CLKIN
nTEST1
nTEST0
GND
+
U1
VDD
MA13
MA12
GND
MA11
MA10
MA9
MA8
MA7
VDDIO
MA6
MA5
MA4
MA3
GND
MA2
MA1
MA0
VDD
MD0
MD1
MD2
MD3
MD4
VDDP
C13
.1uF
VR2
1
5
6
MA14
MA15
RTERM
79
80
81
FS-
USB-
USB+
87
77
78
47
40
30
29
76
RBIAS
VDDA
LOOPFLTR
FS+
GND
IDE_nIOW
37
GND
IDE_SA0
IDE_nCS0
IDE_nCS1
33
39
31
IDE_SA2
IDE_nIOR
IDE_DACK
36
49
46
35
41
34
IDE_SA1
IDE_D13
44
IDE_D15
IDE_D14
IDE_DRQ
IDE_IRQ
GPIO7
GPIO6
GPIO5
VDDIO
nRESET
64
100
10
4
DI
86
CLK
N.C.
85
N.C.
1
84
CS
65
VCC
66
8
69
U3
71
GPIO3
VDDIO,VDDA
2.5V Regulator
VCCEXT
USB97C202
68
IORDY
GPIO2
VDDIO
IDE_D12
IDE_D11
GND
IDE_D10
IDE_D9
VDDIO
IDE_D8
IDE_D7
IDE_D6
IDE_D5
IDE_D4
VSSA
IDE_D3
IDE_D2
IDE_D1
IDE_D0
VDDIO
IORDY
ROMEN
GPIO1
GPIO2
GPIO3
GPIO4
N.C.
67
IDE_D3
IDE_D2
IDE_D1
IDE_D0
3
51
54
56
57
60
52
62
61
58
55
53
83
50
48
45
43
42
38
75
74
73
72
70
90
63
VDD
IDE_D8
IDE_D7
IDE_D6
IDE_D5
IDE_D4
C12
10uF
VDDIO
3
IDE_D10
IDE_D9
+
1.5K 1/10W
5%
MA14
USB-
FS+
FS-
VDDA
GND
IDE_nCS1
IDE_SA0
IDE_SA2
IDE_nIOR
IDE_DACK
IDE_SA1
IDE_D13
VDDIO
IDE_D12
IDE_D11
VDDIO
2
1
IDE_nCS0
VOUT
U2
D0
D1
D2
D3
D4
D5
D6
D7
NC
NC
VCC
GND
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
CE
OE
WE
VPP
12
11
10
9
8
7
6
5
27
26
23
25
4
28
29
3
MA0
MA1
MA2
MA3
MA4
MA5
MA6
MA7
MA8
MA9
MA10
MA11
MA12
MA13
MA14
MA15
22
24
31
1
VDDIO
4
93LC66A Serial EEPROM
R18
1K
Q1
Y1
R17
R3
120
12.00Mhz
C21
22pf
39VF512-70 or e quiv OTP/EPROM
10K
C22
22pf
C20
OPTIONAL for test purposes only, if used tie ROMEN
low;otherwise do not populate
1µf
D1
Title
LED
Size
C
Date:
SMSC USB97C202
Page 12
Revision 1.2 (02-04-04)
DATASHEET
USB97C202 T ypical Application
Document Number
Friday , June 07, 2002
Rev
A
Sheet
1
of
1
USB 2.0 ATA/ATAPI Controller
Datasheet
Chapter 7
7.1
DC Parameters
Maximum Guaranteed Ratings
Operating Temperature Range........................................................................................................................... 0oC to +70oC
Storage Temperature Range ............................................................................................................................-55o to +150oC
Lead Temperature Range (soldering, 10 seconds) ..................................................................................................... +325oC
Positive Voltage on any pin, with respect to Ground ........................................................................................................ 5.5V
Negative Voltage on any pin, with respect to Ground......................................................................................................-0.3V
Maximum VDDA, VDDIO ......................................................................................................................................................+4.0V
Maximum VDD, VDDP .........................................................................................................................................................+3.0V
*Stresses above the specified parameters could cause permanent damage to the device. This is a stress rating only and
functional operation of the device at any other condition above those indicated in the operation sections of this
specification is not implied.
Note:
When powering this device from laboratory or system power supplies, it is important that the Absolute
Maximum Ratings not be exceeded or device failure can result. Some power supplies exhibit voltage
spikes on their outputs when the AC power is switched on or off. In addition, voltage transients on the AC
power line may appear on the DC output. When this possibility exists, it is suggested that a clamp circuit
be used.
Table 7.1 - DC Electrical Characteristics
(TA = 0°C - 70°C, VDDIO, VDDA = +3.3 V ± 10%, VDD, VDDP = +2.5 V ± 10%,)
PARAMETER
SYMBOL
MIN
TYP
MAX
UNITS
0.8
V
COMMENTS
I Type Input Buffer
Low Input Level
VILI
High Input Level
ICLK Input Buffer
VIHI
2.0
TTL Levels
V
0.4
V
Low Input Level
VILCK
High Input Level
Input Leakage
(All I and IS buffers)
VIHCK
2.2
Low Input Leakage
IIL
-10
+10
uA
VIN = 0
High Input Leakage
IIH
-10
+10
uA
VIN = VDDIO
SMSC USB97C202
Page 13
DATASHEET
V
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
PARAMETER
O8 Type Buffer
SYMBOL
MIN
Low Output Level
VOL
High Output Level
VOH
2.4
Output Leakage
IOL
-10
TYP
MAX
UNITS
COMMENTS
0.4
V
IOL = 8 mA @ VDDIO
= 3.3V
V
IOH = -4mA @ VDDIO
= 3.3V
+10
uA
0.4
V
IOL = 8 mA @ VDDIO
= 3.3V
V
IOH = -4 mA @ VDDIO
= 3.3V
VIN = 0 to VDDIO
(Note 7.1)
I/O8 Type Buffer
Low Output Level
VOL
High Output Level
VOH
2.4
Output Leakage
IOL
-10
+10
µA
0.4
V
IOL = 12 mA @ VDDIO
= 3.3V
V
IOH = -6mA @ VDDIO
= 3.3V
+10
µA
VIN = 0 to VDDIO
(Note 7.1, Note 7.3)
0.4
V
IOL = 20 mA @ VDDIO
= 3.3V
V
IOH = -5 mA @ VDDIO
= 3.3V
µA
VIN = 0 to VDDIO
(Note 7.1, Note 7.3)
VIN = 0 to VDDIO
(Note 7.1, Note 7.3)
I/O12 Type Buffer
Low Output Level
VOL
High Output Level
VOH
2.4
Output Leakage
IOL
-10
I/O20 Type Buffer
Low Output Level
VOL
High Output Level
VOH
2.4
Output Leakage
IOL
-10
SMSC USB97C202
Page 14
DATASHEET
+10
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
PARAMETER
IO-U
Note 7.2
Supply Current Unconfigured
Supply Current Active
SYMBOL
MIN
ICCINIT
TYP
MAX
65
85
ICC
UNITS
mA
mA
85
120
mA
mA
Note 7.1
Output leakage is measured with the current pins in high impedance.
Note 7.2
See appendix A for USB DC electrical characteristics.
Note 7.3
Output leakage is valid only on pins without internal weak pull ups or pull downs.
7.1.1
Capacitance TA = 25°C; FC = 1MHz; VDD = 2.5V
PARAMETER
Clock Input Capacitance
Input Capacitance
Output Capacitance
SMSC USB97C202
SYMBOL
CIN
CIN
COUT
MIN
LIMITS
TYP MAX
20
10
20
Page 15
DATASHEET
COMMENTS
VDDIO, VDDA
VDD, VDDP
VDDIO, VDDA
VDD, VDDP
UNIT
TEST CONDITION
pF
All pins except USB pins
(and pins under test tied
pF
to AC ground)
pF
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
Chapter 8
8.1
AC Specifications
ATA/ATAPI
The USB97C202 conforms to all timing diagrams and specifications for ATAPI-5 as set forth in the
T13/1321D Revision 3 NCITS specification. Please refer to this specification for more information.
8.2
USB2.0 Timing
The USB97C202 conforms to all timing diagrams and specifications for USB peripheral silicon building
blocks as set forth in the USB-IF USB 2.0 specification. Please refer to this specification for more
information.
SMSC USB97C202
Page 16
DATASHEET
Revision 1.2 (02-04-04)
USB 2.0 ATA/ATAPI Controller
Datasheet
Chapter 9
Package Outline
Figure 9.1 - 100 Pin STQFP Package Outline, 12x12x1.4 Body, 2MM Footprint (Rev A)
A
A1
A2
D
D1
E
E1
H
L
L1
e
θ
W
R1
R2
ccc
MIN
~
0.05
1.35
13.80
11.80
13.80
11.80
0.09
0.45
~
o
0
0.13
0.08
0.08
~
Table 9.1 – 100 Pin STQFP Package Parameters (Rev A)
NOMINAL
MAX
REMARKS
~
1.60
Overall Package Height
~
0.15
Standoff
~
1.45
Body Thickness
~
14.20
X Span
~
12.20
X body Size
~
14.20
Y Span
~
12.20
Y body Size
~
0.20
Lead Frame Thickness
0.60
0.75
Lead Foot Length
1.00
~
Lead Length
0.40 Basic
Lead Pitch
~
7o
Lead Foot Angle
0.16
0.23
Lead Width
~
~
Lead Shoulder Radius
~
0.20
Lead Foot Radius
~
0.08
Coplanarity
Notes:
1
Controlling Unit: millimeter.
2
Tolerance on the true position of the leads is ± 0.035 mm maximum.
3
Package body dimensions D1 and E1 do not include the mold protrusion.
Maximum mold protrusion is 0.25 mm.
4
Dimension for foot length L measured at the gauge plane 0.25 mm above the seating plane.
5
Details of pin 1 identifier are optional but must be located within the zone indicated.
SMSC USB97C202
Page 17
DATASHEET
Revision 1.2 (02-04-04)