SMSC USB97C211-NE

USB97C211
ADVANCE INFORMATION
Rev 1.3
USB 2.0 Flash Media Controller
FEATURES
8051 8 bit microprocessor
- Provides low speed control functions
- 30 Mhz execution speed at 4 cycles per
instruction average
- 12K Bytes of internal SRAM for general purpose
scratchpad
- 768 Bytes of internal SRAM for general purpose
scratchpad or program execution while reflashing external ROM
Double Buffered Bulk Endpoint
- Bi-directional 512 Byte Buffer for Bulk Endpoint
- 64 Byte RX Control Endpoint Buffer
- 64 Byte TX Control Endpoint Buffer
External Program Memory Interface
- 64K Byte Code Space
- Flash, SRAM, or EPROM Memory
On Board 12Mhz Crystal Driver Circuit
Internal PLL for 480Mhz USB2.0 Sampling, 30Mhz
MCU clock
Supports firmware upgrade via USB bus if “boot
block” Flash program memory is used
2.5 Volt, Low Power Core Operation
3.3 Volt I/O with 5V input tolerance
128 Pin TQFP (1.0 mm height package) or QFP
Package
Complete USB Specification 2.0 Compatibility
- Includes USB 2.0 Transceiver
- A Bi-directional Control and a Bi-directional Bulk
Endpoint are provided.
Complete System Solution for interfacing
CompactFlash (CF) and SmartMedia (SM)
devices to USB 2.0 bus*
- Supports USB Bulk Only Mass Storage
Compliant Bootable BIOS
- Support for the following devices:
- CF: 300K – 15MB/sec
- SM: 2M –15MB/sec
- Support for simultaneous operation of both the
above devices.
- Enhanced CF support to allow true sequential
read operations to improve throughput
16 GPIOs for special function use: LED indicators,
button inputs, power control to memory devices, etc.
- Inputs capable of generating interrupts with
either edge sensitivity
- One GPIO has automatic 1 sec toggle capability
for flashing an LED indicator.
ORDERING INFORMATION
Order Number(s):
USB97C211-NE for TQFP Package
USB97C211-NC for QFP Package
SMSC USB97C211
Page 1
DATASHEET
Revision 1.3 (11-05-03)
© STANDARD MICROSYSTEMS CORPORATION (SMSC) 2003
80 Arkay Drive
Hauppauge, NY 11788
(631) 435-6000
FAX (631) 273-3123
Standard Microsystems and SMSC are registered trademarks of Standard Microsystems Corporation. Product names and company names are the
trademarks of their respective holders. Circuit diagrams utilizing 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 semiconductor devices described any licenses under the patent 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 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 IS HELD TO HAVE FAILED OF ITS ESSENTIAL PURPOSE; AND WHETHER OR NOT SMSC HAS BEEN ADVISED OF THE
POSSIBILITY OF SUCH DAMAGES.
SMSC USB97C211
Page 2
DATASHEET
Revision 1.3 (11-05-03)
1
GENERAL DESCRIPTION
The USB97C211 is a USB2.0 Bulk Only Mass Storage Class Peripheral Controller intended for supporting
CompactFlash (CF), in True IDE Mode only, and SmartMedia (SM) flash memory devices. It provides a single chip
solution for the most popular flash memory cards in the market.*
The device consists of a USB 2.0 PHY and SIE, buffers, Fast 8051 microprocessor with expanded scratchpad, and
program SRAM, and CF/SM controllers.*
Provisions for external Flash Memory up to 64K bytes for program storage is provided.
12K bytes of scratchpad SRAM and 768Bytes of program SRAM are also provided.
Sixteen GPIO pins are for the 128-pin device. Provisions are made to allow hot swap of flash media to be
implemented.
The USB97C211 supports the insertion of cards (CF, SM) simultaneously.
SMSC provides the following object code software free of charge with purchase of the USB97C211**:
Multiple LUN Mass Storage Class compliant firmware to support all media types in a single code image, with
option for firmware download via USB if a sector erasable program memory is used.
Windows application for programming VID/PID/OEM strings, and unique serial number into serial EEPROM via
USB. Serial EEPROM may be eliminated entirely if appropriate firmware and specific Flash device is used for
program code.
Firmware with field upgrade capability via USB (requires specific 128KB Flash for firmware storage).
Source code licenses are also available for USB97C211 customers.**
SMSC may make complete internal specifications available for those customers requiring programming information,
subject to SMSC’s applicable Proprietary Information Agreement (nondisclosure agreement). Contact your SMSC
sales representative for more information.
Note:
* In order to develop, make, use, or sell readers and/or other products using or incorporating any of the SMSC
devices made the subject of this document or to use related SMSC software programs, technical information and
licenses under patent and other intellectual property rights from or through various persons or entities, including
without limitation media standard companies, forums, and associations, and other patent holders may be required.
These media standard companies, forums, and associations include without limitation the following: Sony Corporation
(Memory Stick), SD3 LLC (Secure Digital/MultiMediaCard), the SSFDC Forum (SmartMedia), and the Compact Flash
Association (Compact Flash). SMSC does not make such licenses or technical information available; does not
promise or represent that any such licenses or technical information will actually be obtainable from or through the
various persons or entities (including the media standard companies, forums, and associations), or with respect to the
terms under which they may be made available; and is not responsible for the accuracy or sufficiency of, or otherwise
with respect to, any such technical information.
SMSC's obligations (if any) under the Terms of Sale Agreement, or any other agreement with any customer, or
otherwise, with respect to infringement, including without limitation any obligations to defend or settle claims, to
reimburse for costs, or to pay damages, shall not apply to any of the devices made the subject of this document or
any software programs related to any of such devices, or to any combinations involving any of them, with respect to
infringement or claimed infringement of any existing or future patents related to solid state disk or other flash memory
technology or applications (“Solid State Disk Patents”). By making any purchase of any of the devices made the
subject of this document, the customer represents, warrants, and agrees that it has obtained all necessary licenses
under then-existing Solid State Disk Patents for the manufacture, use and sale of solid state disk and other flash
memory products and that the customer will timely obtain at no cost or expense to SMSC all necessary licenses
under Solid State Disk Patents; that the manufacture and testing by or for SMSC of the units of any of the devices
made the subject of this document which may be sold to the customer, and any sale by SMSC of such units to the
customer, are valid exercises of the customer’s rights and licenses under such Solid State Disk Patents; that SMSC
shall have no obligation for royalties or otherwise under any Solid State Disk Patents by reason of any such
manufacture, use, or sale of such units; and that SMSC shall have no obligation for any costs or expenses related to
the customer’s obtaining or having obtained rights or licenses under any Solid State Disk Patents.
SMSC USB97C211
Page 3
DATASHEET
Revision 1.3 (11-05-03)
SMSC MAKES NO WARRANTIES, EXPRESS, IMPLIED, OR STATUTORY, IN REGARD TO INFRINGEMENT OR
OTHER VIOLATION OF INTELLECTUAL PROPERTY RIGHTS. SMSC DISCLAIMS AND EXCLUDES ANY AND
ALL WARRANTIES AGAINST INFRINGEMENT AND THE LIKE.
No license is granted by SMSC expressly, by implication, by estoppel or otherwise, under any patent, trademark,
copyright, mask work right, trade secret, or other intellectual property right.
**To obtain this software program the appropriate SMSC Software License Agreement must be executed and in
effect. Forms of these Software License Agreements may be obtained by contacting SMSC.
SMSC USB97C211
Page 4
DATASHEET
Revision 1.3 (11-05-03)
TABLE OF CONTENTS
1
GENERAL DESCRIPTION.................................................................................................................................3
2
PIN TABLE.........................................................................................................................................................6
2.1 By Interface................................................................................................................................... 6
2.2 Pin Numbers ................................................................................................................................. 7
2.2.1 128 Pin VTQFP.......................................................................................................................... 7
2.2.2 128 Pin QFP .............................................................................................................................. 8
3
PIN CONFIGURATION ......................................................................................................................................9
3.1
3.2
4
128 Pin VTQFP.............................................................................................................................. 9
128 Pin QFP ................................................................................................................................ 10
BLOCK DIAGRAM ...........................................................................................................................................11
5
PIN DESCRIPTIONS........................................................................................................................................12
5.1
5.2
6
Pin Descriptions......................................................................................................................... 12
Buffer Type Descriptions .......................................................................................................... 16
DC PARAMETERS ..........................................................................................................................................17
6.1
7
Maximum Guaranteed Ratings ................................................................................................. 17
PACKAGE OUTLINES.....................................................................................................................................20
7.1
7.2
128 Pin VTQFP Package Outline, 14X14X1.0 Body, 2 MM Footprint .................................... 20
128 Pin QFP Package Outline, 14X20X2.7 Body, 3.9 MM Footprint ...................................... 21
8
TYPICAL APPLICATION .................................................................................................................................22
9
REFERENCES .................................................................................................................................................23
10
USB97C211 REVISIONS .................................................................................................................................24
SMSC USB97C211
Page 5
DATASHEET
Revision 1.3 (11-05-03)
2
2.1
PIN TABLE
By Interface
CF_D0
CF_D4
CF_D8
CF_D12
CF_nIOR
CF_IORDY
CF_SA1
SM_D0
SM_D4
SM_ALE
SM_nWP
SM_nWPS
USB+
RTERM
MA0
MA4
MA8
MA12
MD0
MD4
nMRD
nIOW
GPIO0/RXD
GPIO4
XTAL1/CLKIN
GPIO8
GPIO12
nTEST0
CompactFlash Interface (28 Pins)
CF_D1
CF_D2
CF_D5
CF_D6
CF_D9
CF_D10
CF_D13
CF_D14
CF_nIOW
CF_IRQ
CF_nCS0
CF_nCS1
CF_SA2
CF_nCD1
SmartMedia Interface (17 Pins)
SM_D1
SM_D2
SM_D5
SM_D6
SM_CLE
SM_nRE
SM_nB/R
SM_nCE
USB Interface (7 Pins)
USBLOOPFLTR
FS+
FSMemory/IO Interface (29 Pins)
MA1
MA2
MA5
MA6
MA9
MA10
MA13
MA14
MD1
MD2
MD5
MD6
nMWR
nMCE
nIOR
Misc (21 Pins)
GPIO1/TXD
GPIO2/T0
GPIO5
GPIO6
XTAL2
nRESET
GPIO9
GPIO10
GPIO13
GPIO14
nTEST1
Power, Grounds (15 Pins)
CF_D3
CF_D7
CF_D11
CF_D15
CF_nRESET
CF_SA0
CF_nCD2
SM_D3
SM_D7
SM_nWE
SM_nCD
RBIAS
MA3
MA7
MA11
MA15
MD3
MD7
GPIO3/nWE
GPIO7
GPIO11
GPIO15
No Connects (11 Pins)
Total 128
SMSC USB97C211
Page 6
DATASHEET
Revision 1.3 (11-05-03)
2.2
Pin Numbers
2.2.1
PIN #
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
26
27
28
29
30
31
32
128 PIN VTQFP
NAME
MA1
MA2
MA3
VDDIO
MA4
MA5
MA6
MA7
MA8
MA9
MA10
MA11
MA12
VDDCORE
MA13
MA14
MA15
MD0
MD1
MD2
MD3
MD4
VSSIO
MD5
MD6
MD7
nMRD
nMWR
nMCE
nIOW
nIOR
N.C.
SMSC USB97C211
MA
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
-
PIN #
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
NAME
TEST3
TEST4
TEST5
N.C.
N.C.
N.C.
N.C.
N.C.
VDDIO
N.C.
TEST2
CF_D0
CF_D1
CF_D2
CF_D3
CF_D4
CF_D5
CF_D6
VSSIO
VSSCORE
CF_D7
CF_D8
CF_D9
CF_D10
CF_D11
CF_D12
CF_D13
CF_D14
CF_D15
CF_nCD1
CF_nCD2
CF_IRQ
MA
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
-
PIN #
NAME
65
CF_IORDY
66
CF_nIOR
67
CF_nIOW
68 CF_nRESET
69
CF_nCS0
70
CF_nCS1
71
CF_SA0
72
CF_SA1
73
CF_SA2
74
VDDIO
75
SM_D0
76
SM_D1
77
SM_D2
78
SM_D3
79
VSSIO
80
SM_D4
81
VDDCORE
82
SM_D5
83
SM_D6
84
SM_D7
85
SM_ALE
86
SM_CLE
87
SM_nRE
88
SM_nWE
89
SM_nWP
90
SM_nCE
91
SM_nWPS
92
SM_nB/R
93
SM_nCD
94
nRESET
95
nTEST0
96
nTEST1
Page 7
DATASHEET
MA PIN #
NAME
MA
97
RBIAS
8
98
VDDA
8
99
FS+
8
100
USB+
8
101
USB8
102
FS8
103
RTERM
8
104
VSSA
8
105
XTAL1
106
XTAL2
8
107
VSSP
8
108 LOOPFLTR
8
109
VDDP
8
110
GPIO0
8
111
GPIO1
8
8
112
GPIO2
8
8
113
GPIO3
8
8
114 VSSCORE
115
GPIO4
8
8
116
GPIO5
8
8
117
GPIO6
8
8
118
GPIO7
8
8
119
GPIO8
8
8
120
GPIO9
8
8
121
GPIO10
8
8
122
GPIO11
8
123
GPIO12
8
124
VSSIO
125
GPIO13
8
126
GPIO14
8
127
GPIO15
8
128
MA0
8
Revision 1.3 (11-05-03)
2.2.2
128 PIN QFP
PIN #
4
5
6
7
NAME
MA1
MA2
MA3
VDDIO
MA
8
8
8
PIN #
36
37
38
39
NAME
TEST3
TEST4
TEST5
N.C.
8
9
10
11
12
13
14
15
MA4
MA5
MA6
MA7
MA8
MA9
MA10
MA11
8
8
8
8
8
8
8
8
40
41
42
43
44
45
46
47
N.C.
N.C.
N.C.
N.C.
VDDIO
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
MA12
VDDCORE
MA13
MA14
MA15
MD0
MD1
MD2
MD3
MD4
VSSIO
MD5
MD6
MD7
nMRD
nMWR
nMCE
nIOW
nIOR
N.C.
8
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
CF_D1
CF_D2
CF_D3
CF_D4
CF_D5
CF_D6
VSSIO
VSSCORE
CF_D7
CF_D8
CF_D9
CF_D10
CF_D11
CF_D12
CF_D13
CF_D14
CF_D15
CF_nCD1
CF_nCD2
CF_IRQ
SMSC USB97C211
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
-
MA
8
8
8
8
8
8
8
8
N.C.
8
8
TEST2
CF_D0
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
-
PIN #
NAME
MA PIN #
NAME
MA
68
CF_IORDY 100
RBIAS
69
CF_nIOR
8
101
VDDA
70
CF_nIOW
8
102
FS+
71
CF_nRESE 8
103
USB+
T
72
CF_nCS0
8
104
USB73
CF_nCS1
8
105
FS74
CF_SA0
8
106
RTERM
75
CF_SA1
8
107
VSSA
76
CF_SA2
8
108
XTAL1
77
VDDIO
109
XTAL2
78
SM_D0
8
110
VSSP
79
SM_D1
8
111 LOOPFLT
R
80
SM_D2
8
112
VDDP
81
SM_D3
8
113
GPIO0
8
82
VSSIO
114
GPIO1
8
83
SM_D4
8
115
GPIO2
8
84
VDDCORE
116
GPIO3
8
85
SM_D5
8
117 VSSCORE
86
SM_D6
8
118
GPIO4
8
87
SM_D7
8
119
GPIO5
8
88
SM_ALE
8
120
GPIO6
8
89
SM_CLE
8
121
GPIO7
8
90
SM_nRE
8
122
GPIO8
8
91
SM_nWE
8
123
GPIO9
8
92
SM_nWP
8
124
GPIO10
8
93
SM_nCE
8
125
GPIO11
8
94
SM_nWPS 126
GPIO12
8
95
SM_nB/R
127
VSSIO
96
SM_nCD
128
GPIO13
8
97
nRESET
1
GPIO14
8
98
nTEST0
2
GPIO15
8
99
nTEST1
3
MA0
8
Page 8
DATASHEET
Revision 1.3 (11-05-03)
3
128 Pin VTQFP
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
1
96
2
95
3
94
4
93
5
92
6
91
7
90
8
89
9
88
10
87
11
86
12
85
13
84
14
83
15
82
USB97C211
16
17
81
80
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
nTEST1
nTEST0
nRESET
SM_nCD
SM_nB/R
SM_nWPS
SM_nCE
SM_nWP
SM_nWE
SM_nRE
SM_CLE
SM_ALE
SM_D7
SM_D6
SM_D5
VDDCORE
SM_D4
VSSIO
SM_D3
SM_D2
SM_D1
SM_D0
VDDIO
CF_SA2
CF_SA1
CF_SA0
CF_nCS1
CF_nCS0
CF_nRESET
CF_nIOW
CF_nIOR
CF_IORDY
TEST3
TEST4
TEST5
N.C.
N.C.
N.C.
N.C.
N.C.
VDDIO
N.C.
TEST2
CF_D0
CF_D1
CF_D2
CF_D3
CF_D4
CF_D5
CF_D6
VSSIO
VSSCORE
CF_D7
CF_D8
CF_D9
CF_D10
CF_D11
CF_D12
CF_D13
CF_D14
CF_D15
CF_nCD1
CF_nCD2
CF_IRQ
49
65
48
66
32
47
67
31
46
68
30
45
69
29
44
70
28
43
71
27
42
72
26
41
73
25
40
74
24
39
75
23
38
76
22
37
77
21
36
78
20
35
79
19
34
18
33
MA1
MA2
MA3
VDDIO
MA4
MA5
MA6
MA7
MA8
MA9
MA10
MA11
MA12
VDDCORE
MA13
MA14
MA15
MD0
MD1
MD2
MD3
MD4
VSSIO
MD5
MD6
MD7
nMRD
nMWR
nMCE
nIOW
nIOR
N.C.
128
MA0
GPIO15
GPIO14
GPIO13
VSSIO
GPIO12
GPIO11
GPIO10
GPIO9
GPIO8
GPIO7
GPIO6
GPIO5
GPIO4
VSSCORE
GPIO3
GPIO2
GPIO1
GPIO0
VDDP
LOOPFLTR
VSSP
XTAL2
XTAL1
VSSA
RTERM
FSUSBDUSBD+
FS+
VDDA
RBIAS
3.1
PIN CONFIGURATION
SMSC USB97C211
Page 9
DATASHEET
Revision 1.3 (11-05-03)
GPIO14
GPIO15
MA0
MA1
MA2
MA3
VDDIO
MA4
MA5
MA6
MA7
MA8
MA9
MA10
MA11
MA12
VDDCORE
MA13
MA14
MA15
MD0
MD1
MD2
MD3
MD4
VSSIO
MD5
MD6
MD7
nMRD
nMWR
nMCE
nIOW
nIOR
N.C.
TEST3
TEST4
TEST5
FS+
VDDA
RBIAS
nTEST1
nTEST0
nRESET
SM_nCD
SM_nB/R
SM_nWPS
SM_nCE
SM_nWP
SM_nWE
SM_nRE
SM_CLE
SM_ALE
SM_D7
SM_D6
SM_D5
VDDCORE
SM_D4
VSSIO
SM_D3
SM_D2
SM_D1
SM_D0
VDDIO
CF_SA2
CF_SA1
CF_SA0
CF_nCS1
CF_nCS0
CF_nRESET
CF_nIOW
CF_nIOR
CF_IORDY
CF_IRQ
CF_nCD2
CF_nCD1
3.2
128 Pin QFP
USB+
USBFSRTERM
VSSA
XTAL1
XTAL2
VSSP
LOOPFLTR
VDDP
GPIO0
GPIO1
GPIO2
GPIO3
VSSCORE
GPIO4
GPIO5
GPIO6
GPIO7
GPIO8
GPIO9
GPIO10
GPIO11
GPIO12
VSSIO
GPIO13
102
SMSC USB97C211
128
65
USB97C211
1
38
Page 10
DATASHEET
CF_D15
CF_D14
CF_D13
CF_D12
CF_D11
CF_D10
CF_D9
CF_D8
CF_D7
VSSCORE
VSSIO
CF_D6
CF_D5
CF_D4
CF_D3
CF_D2
CF_D1
CF_D0
TEST2
N.C.
VDDIO
N.C.
N.C.
N.C.
N.C.
N.C.
Revision 1.3 (11-05-03)
4
BLOCK DIAGRAM
Auto address generators
1.25KB
SRAM
512 Bytes EP2 TX/RX Buffer B
512 Bytes EP2 TX/RX Buffer A
Address
Address
EP0TX_BC
64 Bytes EP1RX
64 Bytes EP1TX
Flash Media
Controllers
(FMC)
64 Bytes EP0RX
EP0RX_BC
Address
EP1TX_BC
Address
EP1RX_BC
Address
64 Bytes EP0TX
Clocked byPhase 0, 2 Clock
32 bit 15MHz Data Buss
GPIO
Configuration and Control
8 pins
Interrupt Controller
Osc
MEM/IO Bus
29pins
XTAL
FAST 8051
CPU CORE
CLOCKOUT
12 MHz
Clocked by Phase 3 Clock
SMSC USB97C211
SM/SSFDC
12K Byte
Program/Scratchpad
SRAM
Clock Generation
7 pins
SM
Controller
Control/
Status
ECC
Control/
Status
Work Scratchpad
SRAM (768 Byte)
SIE Control Regs
USB 2.0 PHY
( Transciever )
CF
XDATA & SFR
Address and Data busses
Address Register
Data @ 32 bit
15Mhz
CF
Controller
Control/
Status
DATA
Latch phase 1
FMC
FMC Data MUX
Address
SIE
( Serial Interface Engine )
DATA
60MHz
Latch phase 3
8051
Latch phase 0, 2
SIE
Address
RAMRD_A/B
Data Buss
RAMWR_A/B
Address MUX
Flash Media DMA Unit
32 Bit
Memory
Cards
Page 11
Revision 1.3 (11-05-03)
DATASHEET
Program Memory/ IO
Bus
5
PIN DESCRIPTIONS
This section provides a detailed description of each signal. The signals are arranged in functional groups according to
their associated interface.
The “n” symbol in the signal name indicates that the active, or asserted state occurs when the signal is at a low
voltage level. When “n” is not present before the signal name, the signal is asserted when at the high voltage level.
The terms assertion and negation are used exclusively. This is done to avoid confusion when working with a mixture
of “active low” and “active high” signal. The term assert, or assertion indicates that a signal is active, independent of
whether that level is represented by a high or low voltage. The term negate, or negation indicates that a signal is
inactive.
5.1
Pin Descriptions
NAME
CF Chip Select 1
BUFFER
DESCRIPTION
TYPE
CompactFlash (In True IDE mode) Interface
CF_nCS1
O8
This pin is the active low chip select 1 signal for the CF
ATA device
SYMBOL
CF Chip Select 0
CF_nCS0
O8
CF Register Address 2
CF_SA2
O8
CF Register Address 1
CF_SA1
O8
CF Register Address 0
CF_SA0
O8
CF Interrupt
CF_IRQ
IPD
CF
Data 15-8
CF_D[15:8]
IO8
This pin is the active low chip select 0 signal for the task
file registers of CF ATA device in the True IDE mode.
This pin is the register select address bit 2 for the CF
ATA device.
Address signal 1 for the task file registers, when the
CFC is enabled in True IDE mode
Address signal 0 for the task file registers, when the CFC
is enabled in True IDE mode.
This is the active high interrupt request signal from the
CF device.
This pin has an internal weak pull-down resistor.
The bi-directional data signals CF_D15-CF_D8 in True
IDE mode data transfer, when the CFC is enabled.
In the True IDE Mode, all of task file register operation
occur on the CF_D[7:0], while the data transfer is on
CF_D[15:0].
CF
Data7-0
CF_D[7:0]
IO8
These pins have an internal weak pull-down resistor.
The bi-directional data signals CF_D7-CF_D0 in the True
IDE mode data transfer.
In the True IDE Mode, all of task file register operation
occur on the CF_D[7:0], while the data transfer is on
CF_D[15:0].
IO Ready
CF_IORDY
IPU
CF
Card Detection2
CF_nCD2
IPU
CF
Card Detection1
CF_nCD1
IPU
These pins have an internal weak pull-down resistor.
This pin is active high input signal with an internal weak
pull-up resistor.
This card detection pin is connected to the ground on the
CF device, when the CF device is inserted.
This pin has an internal weak pull-up resistor.
This card detection pin is connected to ground on the CF
device, when the CF device is inserted.
This pin has an internal weak pull-up resistor.
SMSC USB97C211
Page 12
DATASHEET
Revision 1.3 (11-05-03)
NAME
CF
Hardware Reset
CF
IO Read
CF
IO Write Strobe
SM
Write Protect
SM
Address Strobe
SM
Command Strobe
SM
Data7-0
SM
Read Enable
SM
Write Enable
SM
Write Protect Switch
SYMBOL
CF_nRESET
BUFFER
DESCRIPTION
TYPE
O8
This pin is an active low hardware reset signal to CF
device.
CF_nIOR
O8
This pin is an active low read strobe signal for CF device,
when the CFC is enabled.
CF_nIOW
O8
This pin is an active low write strobe signal for CF device,
when the CFC is enabled.
SM_nWP
SmartMedia Interface
O8
This pin is an active low write protect signal for the SM
device, when the SMC is enabled.
SM_ALE
O8
This pin is an active high Address Latch Enable signal for
the SM device, when the SMC is enabled
SM_CLE
O8
This pin is an active high Command Latch Enable signal
for the SM device, when the SMC is enabled.
SM_D[7:0]
IO8
These pins are the bi-directional data signal SM_D7SM_D0, when the SMC is enabled.
The bi-directional input signal should have an internal
weak pull-up resister on the input.
This pin is an active low read strobe signal for SM device,
when SMC is enabled.
SM_nRE
O8
SM_nWE
O8
This pin is an active low write strobe signal for SM
device, when SMC is enabled.
SM_nWPS
IPU
A write-protect seal is detected, when this pin is low.
SM
Busy or Data Reday
SM_nB/R
IPU
This pin has an internal weak pull-up resistor.
This pin is connected to the BSY/RDY pin of the SM
device.
SM
Chip Enable
SM_nCE
O8
This pin has an internal weak pull-up resistor.
This pin is the active low chip enable signal to the SM
device.
SM
Card Detection
SM_nCD
IPU
This pin has an internal weak pull-up resistor.
This is the card detection signal from SM device to
indicate if the device is inserted.
This pin has internal weak pull-up resistor.
SMSC USB97C211
Page 13
DATASHEET
Revision 1.3 (11-05-03)
NAME
USB Bus Data
SYMBOL
USB Transceiver Filter
USBUSB+
LOOPFLTR
USB Transceiver Bias
RBIAS
Termination Resistor
RTERM
Full Speed USB Data
FSFS+
Memory Data Bus
MD[7:0]
Memory Address Bus
MA[15:0]
Memory Write Strobe
Memory Read Strobe
nMWR
nMRD
Memory Chip Enable
nMCE
I/O Read Strobe
I/O Write Strobe
nIOR
nIOW.
Crystal Input/External
Clock Input
XTAL1/
CLKIN
Crystal Output
XTAL2
General Purpose I/O
GPIO0
/RXD
BUFFER
DESCRIPTION
TYPE
USB Interface
IO-U
These pins connect to the USB bus data signals.
IO-U
This pin provides the ability to supplement the internal
filtering of the transceiver with an external network, if
required. This pin is normally not connected.
A precision 10.0K resistor is attached from ground to this
pin to set the transceiver’s internal bias currents.
A precision 1.5K resistor is attached to this pin from a
3.3V supply.
These pins connect to the USB- and USB+ pins through
39.2 ohm series resistors.
Memory/IO Interface
IO8
These signals are used to transfer data between the
internal CPU and the external program memory.
O8
These signals address memory locations within the
external memory. Memory access time should be 80 ns or
less.
O8
Program Memory Write; active low
O8
Program Memory Read; active low. Memory output enable
time (assuming this signal is used for this memory
function) must be 80 ns or less.
O8
Program Memory Chip Enable; active low. This signal
shall be deasserted, when the USB97C211 is in power
down mode (USB SUSPEND).
O8
This is an active low I/O Read strobe signal of MD bus.
O8
This is an active low I/O Write strobe signal of MD bus.
Misc
ICLKx 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.
OCLKx 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.
I/O8
This pin may be used either as input, edge sensitive
interrupt input, or output.
In addition to the above, this port has the capability of
auto-toggling at a 1 Hz rate when used as an output.
As an input, the GPIO0 can also be used as input to the
RXD of a UART in the device for firmware debug
purposes.
Note: This pin defaults as an input and should be
terminated to a supply via a high value resistor to avoid a
floating input condition.
SMSC USB97C211
Page 14
DATASHEET
Revision 1.3 (11-05-03)
NAME
General Purpose I/O
SYMBOL
GPIO1
/TXD
BUFFER
DESCRIPTION
TYPE
I/O8
This pin may be used either as input, edge sensitive
interrupt input, or output.
In addition, as an output, the GPIO1 can also be used as
an output TXD of a UART in the device for firmware
debug purposes.
Note: This pin defaults as an input and should be
terminated to a supply via a high value resistor to avoid a
floating input condition.
General Purpose I/O
GPIO2
/T0
I/O8
This pin may be used either as input, edge sensitive
interrupt input, or output.
In addition, the pin can be used as the internal 8051 “T0
timer P3.4” output.
General Purpose I/O
GPIO3
/nWE
I/O8
Note: This pin defaults as an input and should be
terminated to a supply via a high value resistor to avoid a
floating input condition.
This pin may be used either as input, edge sensitive
interrupt input, or output.
In addition, the output can be nWE, for use with PCMCIA
form factor flash cards with “true IDE” capability.
Note: This pin defaults as an input and should be
terminated to a supply via a high value resistor to avoid a
floating input condition.
General Purpose I/O
GPIO[7:4]
I/O8
This pin may be used either as input, edge sensitive
interrupt output, or output.
General Purpose I/O
RESET input
GPIO[15:8]
nRESET
I/O8
IS
TEST Input
nTEST[0:1]
I
TEST Input
TEST[2:5]
I
These pins may be used either as input, or output.
This active low signal is used by the system to reset the
chip. The active low pulse must be at least 100ns wide.
These signals are used for testing the chip. User should
normally leave them unconnected.
These pins are used for testing the chips. They should be
tied to ground thru high value resistors for normal
operation.
SMSC USB97C211
Page 15
DATASHEET
Revision 1.3 (11-05-03)
VDD
VDDIO
VDDP
VSSP
VDDA
VSSA
GND
N.C.
5.2
POWER, GROUNDS, and NO CONNECTS
+2.5V Core power
+3.3V I/O power
+2.5 Analog power
Analog Ground Reference
+3.3V Analog power
Analog Ground Reference
Ground Reference
No connection should be made externally
Buffer Type Descriptions
Table 1 - USB97C211 Buffer Type Descriptions
BUFFER
DESCRIPTION
I
Input
IPU
Input with internal weak pull-up resistor.
IPD
Input with internal weak pull-down resistor.
IS
Input with Schmitt trigger
I/O4
Input/Output with 4mA drive
I/OD4
Input/Open drain output … 4mA sink
I/O8
Input/Output with 8mA drive
I/OD8
Input/Open drain output … 8mA sink
O4
Output with 4mA drive
O8
Output with 8mA drive
I/O12
Output with 12mA drive
O12
Output with 12mA drive
OD12
Open drain….12mA sink
ICLKx
XTAL clock input
OCLKx
XTAL clock output
I/O-U
Defined in USB specification
SMSC USB97C211
Page 16
DATASHEET
Revision 1.3 (11-05-03)
6
6.1
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 VDD, VDDP ........................................................................................................................................................+3.0V
Maximum VDDIO, VDDA ......................................................................................................................................................+4.0V
*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.
DC ELECTRICAL CHARACTERISTICS (TA = 0°C - 70°C, VDDIO,VDA = +3.3 V ± 10%, VDD, VDDP = +2.5 V ± 10%,)
PARAMETER
SYMBOL
MIN
TYP
MAX
UNITS
COMMENTS
I Type Input Buffer
Low Input Level
VILI
High Input Level
ICLK Input Buffer
VIHI
0.8
2.0
V
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
O8 Type Buffer
IIH
-10
+10
uA
VIN = VDDIO
0.4
V
IOL = 8 mA @ VDDIO
= 3.3V
V
IOH = -4mA @ VDDIO
= 3.3V
Low Output Level
VOL
High Output Level
VOH
2.4
Output Leakage
IOL
-10
SMSC USB97C211
Page 17
DATASHEET
V
+10
uA
VIN = 0 to VDDIO
(Note 1)
Revision 1.3 (11-05-03)
PARAMETER
I/O8 Type Buffer
Low Output Level
HIGH OUTPUT LEVEL
Output Leakage
SYMBOL
MIN
TYP
VOL
VOH
2.4
IOL
-10
MAX
UNITS
COMMENTS
0.4
V
IOL = 8 mA @ VDDIO
= 3.3V
V
IOH = -4 mA @ VDDIO
= 3.3V
+10
µA
0.4
V
IOL = 12 mA @ VDDIO
= 3.3V
V
IOH = -6mA @ VDDIO
= 3.3V
+10
µA
VIN = 0 to VDDIO
(Note 1)
0.4
V
IOL = 24 mA @ VDDIO
= 3.3V
V
IOH = -12 mA @
VDDIO = 3.3V
µA
VIN = 0 to VDDIO
(Note 1)
mA
VDD, VDDP = 2.5V
VDDA, VDDIO = 3.3V
VDD, VDDP = 2.5V
VDDA, VDDIO = 3.3V
VDD, VDDP = 2.5V
VDDA, VDDIO = 3.3V
VIN = 0 to VDDIO
(Note 1)
I/O12 Type Buffer
Low Output Level
VOL
High Output Level
VOH
2.4
Output Leakage
IOL
-10
I/O24 Type Buffer
Low Output Level
VOL
High Output Level
VOH
2.4
Output Leakage
IOL
-10
IO-U
(Note 2)
Supply Current Unconfigured
Supply Current Active
Supply Current Standby
ICCINIT
+10
80
60
80
60
4
2
ICC
ICSBY
100
70
170
130
mA
µA
Note 1: Output leakage is measured with the current pins in high impedance.
Note 2: See Appendix A for USB DC electrical characteristics.
Note 3: Unconfigured and Operating Supply currents are measured in HS mode.
Note 4: Standby currents are measured in optimum board configuration and vary depending on system configuration.
SMSC USB97C211
Page 18
DATASHEET
Revision 1.3 (11-05-03)
CAPACITANCE TA = 25°C; fc = 1MHz; VDD = 2.5V
PARAMETER
Clock Input Capacitance
Input Capacitance
Output Capacitance
SMSC USB97C211
SYMBOL
CIN
CIN
COUT
MIN
LIMITS
TYP MAX
20
10
20
Page 19
DATASHEET
UNIT
TEST CONDITION
pF
All pins except USB pins
(and pins under test tied
pF
to AC ground)
pF
Revision 1.3 (11-05-03)
7
PACKAGE OUTLINES
7.1
128 Pin VTQFP Package Outline, 14X14X1.0 Body, 2 MM Footprint
A
A1
A2
D
D1
E
E1
H
L
L1
e
θ
W
R1
R2
ccc
Notes:
MIN
~
0.05
0.95
15.80
13.80
15.80
13.80
0.09
0.45
~
o
0
0.13
0.08
0.08
~
NOMINAL
~
~
~
~
~
~
~
~
0.60
1.00
0.40 Basic
~
0.18
~
~
~
MAX
1.20
0.15
1.05
16.20
14.20
16.20
14.20
0.20
0.75
~
REMARKS
Overall Package Height
Standoff
Body Thickness
X Span
X body Size
Y Span
Y body Size
Lead Frame Thickness
Lead Foot Length
Lead Length
Lead Pitch
Lead Foot Angle
Lead Width
Lead Shoulder Radius
Lead Foot Radius
Coplanarity
7o
0.23
~
0.20
0.08
1
Controlling Unit: millimeter.
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.
2
SMSC USB97C211
Page 20
DATASHEET
Revision 1.3 (11-05-03)
7.2
128 Pin QFP Package Outline, 14X20X2.7 Body, 3.9 MM Footprint
A
A1
A2
D
D1
E
E1
H
L
L1
e
θ
W
R1
R2
ccc
Notes:
MIN
~
0.05
2.55
23.70
19.90
17.70
13.90
0.09
0.73
~
o
0
0.10
0.13
0.13
~
NOMINAL
~
~
~
~
~
~
~
~
0.88
1.95
0.50 Basic
~
~
~
~
~
MAX
3.4
0.5
3.05
24.10
20.10
18.10
14.10
0.20
1.03
~
REMARKS
Overall Package Height
Standoff
Body Thickness
X Span
X body Size
Y Span
Y body Size
Lead Frame Thickness
Lead Foot Length
Lead Length
Lead Pitch
Lead Foot Angle
Lead Width
Lead Shoulder Radius
Lead Foot Radius
Coplanarity
7o
0.30
~
0.30
0.08
1
Controlling Unit: millimeter.
Tolerance on the position of the leads is ± 0.04 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.
2
SMSC USB97C211
Page 21
DATASHEET
Revision 1.3 (11-05-03)
TYPICAL APPLICATION
N.C.
DI
5
1
FSUSB-
R4 39.2
2
1
2
USBUSB+
GPIO5
GPIO2
3
GPIO4
R18
1K
C12
.1uF
C13
.1uF
C14
.1uF
GND
R2
10K
1
2
3
4
VCC
DD+
GND
USB TYPE B
VDDIO
VDDIO
CF_IORDY
CF_nRESET
CF_IRQ
CF_nIOW
CF_nIOR
CF_D15
CF_D14
CF_D13
CF_D12
CF_D11
CF_D10
CF_D9
CF_D8
VSS
CF_D7
CF_D6
CF_D5
CF_D4
CF_D3
CF_D2
CF_D1
CF_D0
VDDP
USB+
FS+
LOOPFLTR
RBIAS
VSSA
RTERM
FSUSBVDDA
VSSP
(128 pin VTQFP)
SM_nCE
SM_nCD
SM_nWPS
NC
NC
NC
VDDIO
MA15
MA14
MA13
MA12
MA11
MA10
MA9
MA8
MA7
VSS
MA6
MA5
MA4
MA3
VDDCORE
MA2
MA1
MA0
MD0
MD1
MD2
MD3
MD4
VDDIO
MD5
MD6
MD7
nMWR
nMRD
nMCE
VSS
17
16
15
13
12
11
10
9
8
23
7
6
5
3
14
2
1
128
18
19
20
21
22
4
24
25
26
28
27
29
51
MA15
MA14
MA13
MA12
MA11
MA10
MA9
MA8
MA7
MA[0:15]
MA6
MA5
MA4
MA3
MA2
MA1
MA0
13
14
15
17
18
19
20
21
VDD
D0
D1
D2
D3
D4
D5
D6
D7
VDDIO
VDDIO
30
32
16
NC
VCC
GND
U2
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
CE
OE
WE
VPP
12
11
10
9
8
7
6
5
27
26
23
25
4
28
29
3
2
MA0
MA1
MA2
MA3
MA4
MA5
MA6
MA7
MA8
MA9
MA10
MA11
MA12
MA13
MA14
MA15
MA16
22
24
31
1
VDDIO
Flash Card Power Control
Q3
LED
HS
Indicator
GPIO13
GPIO14
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
MA16
GPIO7
VDDIO
R17 10K
Y1
GPIO9
Q5
MOSFET P
C15
C16
22pf
VDDCF
12.00Mhz
C17 22pf
1µf
GPIO10
Title
R19
100
Note 1: If firmware download is not required,a 64KB Flash
(39VF512) can be used. GPIO6 should be not connected.
VDDIO
Q4
MOSFET P
D3
GPIO9
GPIO10
39VF010 or equiv OTP/EPROM
High Speed INIDICATOR
GPIO7
C11
.1uF
1.5K1/10W
5%
38
37
43
42
32
34
33
35
106
95
96
105
114
110
111
112
113
115
116
117
118
124
119
120
121
122
123
125
126
127
94
31
30
VDDIO
USB97C211
LED
2
4
VSS
DO
Note: May be
eliminated with
appropriate firmware
and component
utilization for U2
SMSC USB97C211
C10
.1uF
1
93LC66A Serial EEPROM
1
VCC
CS
1
R8
VDDA
U1
R13
6
C9
.1uF
D2
VDDIO
U3 CLK
C8
.1uF
2
100
90
93
91
36
40
39
41
CF_nCS0
CF_nCS1
CF_SA0
CF_SA1
CF_SA2
CF_nCD1
CF_nCD2
SM_D0
SM_D1
VSS
SM_D2
SM_D3
SM_D4
SM_D5
VDDCORE
SM_D6
SM_D7
SM_ALE
SM_CLE
SM_nRE
SM_nWE
SM_nWP
SM_nB/R
4x100K
SERIAL EEPROM
FSFS+
NC
NC
TEST2
NC
NC
TEST4
TEST3
TEST5
XTAL2
nTEST0
nTEST1
XTAL1/CLKIN
VSS
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
VSS
GPIO8
GPIO9
GPIO10
GPIO11
GPIO12
GPIO13
GPIO14
GPIO15
nRESET
nIOR
nIOW
69
70
71
72
73
62
63
75
76
79
77
78
80
82
81
83
84
85
86
87
88
89
92
R14
R15
R16
LED
C4
10uF
74
65
68
64
67
66
61
60
59
58
57
56
55
54
52
53
50
49
48
47
46
45
44
109
100
99
108
97
104
103
102
101
98
107
100K
R10
R9
D1
VDDIO
+
R3
VDDIO
Q2
100
R12
SM
Insertion/
Activity
Indicator
2
GPIO3
10 K
VDD
N.C.
C7
.1uF
R5 39.2
VDDSM
Q1
GPIO14
VOUT
P1
VDD
R11
CF
Insertion/
Activity
Indicator
C6
.1uF
R7
10 K
VDDCF
VIN
C3
10uF
VDD
1M
USB+
FS+
R6
100K
GPIO13
3
+
C2
10uF
R1
10.0K
1/10W
1%
Smart_Media
7
A10
A09
A08
A07
A06
A05
A04
A03
CSEL#
ATASEL#
VS1#
GND
GND
C5
.1uF
1
10
18
GND
GND
GND
+
8
10
11
12
14
15
16
17
39
9
33
1
50
CD2#
CD1#
A02
A01
A00
CS1#
CS0#
IORDY
RESET#
INTRQ
IOWR#
IORD#
D15
D14
D13
D12
D11
D10
D09
D08
D07
D06
D05
D04
D03
D02
D01
D00
25
26
18
19
20
32
7
42
41
37
35
34
31
30
29
28
27
49
48
47
6
5
4
3
2
23
22
21
VS2#
DASP#
IOCS16#
PDIAG#
INPACK#
40
45
24
46
43
VCC
VCC
REG#
WE#
38
13
44
36
SMART MEDIA CARD SOCKET
17
24
6
7
8
9
13
14
15
16
3
2
20
4
5
19
21
11
23
LVD
Card Det. SW1
D0
D1
D2
D3
D4
D5
D6
D7
ALE
CLE
RE#
WE#
WP#
R/B#
CE#
CD#
Card Det. SW0
VDD
2
VOUT
VDDIO,VDDA
12
22
VCC
VCC
8
VIN
C1
10uF
VR2
VDDCF
VDDSM
J2
+
VCCEXT
VR1
3
Compact_Flash_1
3.3V Regulator
2.5V Regulator
VCCEXT
1
COMPACT FLASH MEDIA SOCKET
J1
GND
8
USB97C211 Typical Application
VDDSM
Size
Document Number
Rev
D
Custom
Date:
Page 22
Revision 1.3 (11-05-03)
DATASHEET
Friday , August 02, 2002
Sheet
1
of
1
9
REFERENCES
1.
SmartMedia Electrical Specification Version 1.30
2.
SmartMedia Physical Format Specifications Version 1.30
3.
SmartMedia Logical Format Specifications Version 1.20
4.
SMIL (SmartMedia Interface Library) Software Edition Version 1.00, Toshiba Corporation, 01, July, 2000
5.
SMIL (SmartMedia Interface Library) Hardware Edition Version 1.00, Toshiba Corporation, 01, July, 2000
6.
CompactFlash Specification Rev 1.4
7.
CF+ & CF Specification Rev. ATA-5 Draft 0.2
8.
Universal Serial Bus Specification Rev 2.0
SMSC USB97C211
Page 23
DATASHEET
Revision 1.3 (11-05-03)
10 USB97C211 REVISIONS
PAGE
17
SECTION
6 - DC PARAMETERS
3
1 - GENERAL DESCRIPTION
22
8 - Typical Application
SMSC USB97C211
COMMENT
DC ELECTRICAL CHARACTERISTICS –
Updated High Input Leakage units.
Two bullets under SMSC provides the
following object code software free of charge
with purchase of the USB97C211**
DATE
11-05-03
Updated diagram
08-02-02
Page 24
DATASHEET
08-02-02
Revision 1.3 (11-05-03)