Silicon Image SiliconDrive SSD C08G(I) 3600 User Manual

DATA SHEET  
SILICONDRIVE CF  
SSD-CXXX(I)-3600  
OVERVIEW  
FEATURES  
The SiliconDrive CF is an optimal time-to-  
market replacement for hard drives and  
flash cards or in host systems that require  
low power and scalable storage solutions.  
• RoHS 6 of 6 compliant  
• Integrated PowerArmor and SiSMART  
technologies  
• Capacity range: 128MB to 8GB  
SiliconDrive technology is engineered  
exclusively for the high performance, high  
reliability, and multiyear product lifecycle  
requirements of the Enterprise System  
• Supports both 8-bit and 16-bit data  
register transfers  
• Supports dual-voltage 3.3V or 5V  
interface  
OEM  
market.  
Typical  
end-market  
14  
applications include broadband data and  
voice networks, military systems, flight  
system avionics, medical equipment,  
• Data reliability <1 error in 10 bits read  
• MTBF 4,000,000 hours  
• ATA-3 compliant  
industrial  
control  
systems,  
video  
• Industry standard Type I CF form factor  
surveillance, storage networking, VoIP,  
wireless infrastructure, and interactive  
kiosks.  
• Supports PIO modes 0-4 and DMA  
modes 0-2  
Every SiliconDrive is integrated with  
SiliconSystems’ patented PowerArmor  
and  
patent-pending  
SiSMART  
8GB  
SSD-C08G(I)-3600  
technologies to virtually eliminate storage  
systems failures.  
PowerArmor prevents data corruption and  
loss from power disturbances by  
integrating patented technology into every  
SiliconDrive.  
SiSMART acts as an early warning system  
to eliminate unscheduled downtime by  
constantly monitoring and reporting the  
exact amount of remaining storage system  
useful life.  
Numerous SiliconSystems’ patented and  
patent-pending  
application-specific  
technologies can be integrated into  
SiliconDrive to safeguard application data  
and software IP. Application notes  
detailing these performance-enhancing  
options are available under NDA.  
SILICONSYSTEMS PROPRIETARY  
This document and the information contained within it is confidential and proprietary to SiliconSystems, Inc.  
All unauthorized use and/or reproduction is prohibited.  
26840 ALISO VIEJO PARKWAY, ALISO VIEJO, CA 92656 PHONE: 949.900.9400 FAX: 949.900.9500 http://www.siliconsystems.com  
3600C-04DSR  
FEBRUARY 2, 2009  
   
TABLE OF CONTENTS  
SSD-CXXX(I)-3600 DATA SHEET  
TABLE OF CONTENTS  
Overview.......................................................................................................................... i  
Features........................................................................................................................... i  
Revision History..............................................................................................................II  
List of Figures ...............................................................................................................VII  
List of Tables................................................................................................................VIII  
Physical Specifications................................................................................................. 1  
Product Specifications.................................................................................................. 2  
Electrical Specification.................................................................................................. 5  
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PAGE III  
FEBRUARY 2, 2009  
TABLE OF CONTENTS  
SSD-CXXX(I)-3600 DATA SHEET  
Attribute Memory Description and Operation........................................................... 22  
Common Memory Description and Operation .......................................................... 40  
I/O Space Description and Operation ........................................................................ 41  
ATA and True IDE Register Decoding ........................................................................ 42  
ATA Registers............................................................................................................... 46  
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FEBRUARY 2, 2009  
TABLE OF CONTENTS  
SSD-CXXX(I)-3600 DATA SHEET  
ATA Command Block and Set Description................................................................ 58  
Identify Drive — Drive Attribute Data ............................................................. 64  
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FEBRUARY 2, 2009  
TABLE OF CONTENTS  
SSD-CXXX(I)-3600 DATA SHEET  
Sales and Support ....................................................................................................... 95  
Part Numbering............................................................................................................ 95  
Related Documentation............................................................................................... 97  
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FEBRUARY 2, 2009  
LIST OF FIGURES  
SSD-CXXX(I)-3600 DATA SHEET  
LIST OF FIGURES  
Figure 1: Physical Dimensions......................................................................................... 1  
Figure 2: Attribute and Common Memory Read Timing Diagram.................................. 16  
Figure 3: Attribute and Common Memory Write Timing Diagram.................................. 17  
Figure 4: I/O Access Read Timing Diagram .................................................................. 18  
Figure 5: I/O Access Write Timing Diagram................................................................... 19  
Figure 6: True IDE Read/Write Access Timing Diagram ............................................... 20  
Figure 7: True IDE Multiword DMA Read/Write Access Timing..................................... 21  
Figure 8: Sample Label.................................................................................................. 96  
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PAGE VII  
FEBRUARY 2, 2009  
 
LIST OF TABLES  
SSD-CXXX(I)-3600 DATA SHEET  
LIST OF TABLES  
Table 1: System Performance ......................................................................................... 2  
Table 2: System Power Requirements ............................................................................ 2  
Table 3: Reliability............................................................................................................ 3  
Table 4: Operational Life Span ........................................................................................ 3  
Table 5: Product Capacity Specifications ........................................................................ 4  
Table 6: Environmental Specifications............................................................................. 4  
Table 7: Pin Assignments ................................................................................................ 5  
Table 8: Signal Descriptions ............................................................................................ 6  
Table 9: Absolute Maximum Ratings ............................................................................. 14  
Table 10: Capacitance................................................................................................... 15  
Table 11: DC Characteristics......................................................................................... 15  
Table 12: Attribute and Common Memory Read Timing................................................ 16  
Table 13: Attribute and Common Memory Write Timing................................................ 17  
Table 14: I/O Access Read Timing ................................................................................ 18  
Table 15: I/O Access Write Timing ................................................................................ 19  
Table 16: True IDE Read/Write Access Timing ............................................................. 20  
Table 17: True IDE Multiword DMA Read/Write Access Timing.................................... 21  
Table 18: Attribute Memory Read Operations ............................................................... 22  
Table 19: Attribute Memory Write Operations................................................................ 23  
Table 20: Attribute Memory Map.................................................................................... 24  
Table 21: Card Information Structure............................................................................. 25  
Table 22: Configuration Option Register (200h) ............................................................ 36  
Table 23: Configuration and Status Register (202h)...................................................... 37  
Table 24: Pin Placement Register (204h)...................................................................... 38  
Table 25: Socket and Copy Register (206h).................................................................. 39  
Table 26: Common Memory Read Operations .............................................................. 40  
Table 27: Common Memory Write Operations .............................................................. 40  
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FEBRUARY 2, 2009  
 
LIST OF TABLES  
SSD-CXXX(I)-3600 DATA SHEET  
Table 28: I/O Space Read Operations........................................................................... 41  
Table 29: I/O Space Write Operations........................................................................... 41  
Table 30: Memory-Mapped Register Decoding ............................................................. 42  
Table 31: Independent I/O Mode Register Decoding..................................................... 43  
Table 33: Task File Register Specification..................................................................... 45  
Table 34: Error Register................................................................................................. 46  
Table 35: Feature Register ............................................................................................ 47  
Table 36: Sector Count Register.................................................................................... 48  
Table 37: Sector Number Register ................................................................................ 49  
Table 38: Cylinder Low Register.................................................................................... 50  
Table 39: Cylinder High Register................................................................................... 51  
Table 40: Drive/Head Register....................................................................................... 52  
Table 41: Status Register .............................................................................................. 53  
Table 42: Command Register........................................................................................ 54  
Table 43: Alternate Status Register............................................................................... 55  
Table 44: Device Control Register................................................................................. 56  
Table 45: Device Address Register ............................................................................... 57  
Table 46: ATA Command Block and Set Description .................................................... 58  
Table 47: ATA Command Set........................................................................................ 58  
Table 48: Check Power Mode — 98h, E5h.................................................................... 60  
Table 49: Executive Drive Diagnostic — 90h................................................................. 61  
Table 50: Format Track — 50h...................................................................................... 62  
Table 51: Identify Drive — ECh ..................................................................................... 63  
Table 52: Identify Drive — Drive Attribute Data............................................................. 64  
Table 53: Idle — 97h, E3h ............................................................................................. 67  
Table 54: Idle Immediate — 95h, E1h ........................................................................... 68  
Table 55: Initialize Drive Parameters — 91h ................................................................. 69  
Table 56: Recalibrate — 1Xh......................................................................................... 70  
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FEBRUARY 2, 2009  
LIST OF TABLES  
SSD-CXXX(I)-3600 DATA SHEET  
Table 57: Read Buffer — E4h........................................................................................ 71  
Table 58: Read DMA — C8h ......................................................................................... 72  
Table 59: Read Multiple — C4h..................................................................................... 73  
Table 60: Read Sector — 20h, 21h ............................................................................... 74  
Table 61: Read Long Sector(s) — 22h, 23h .................................................................. 75  
Table 62: Read Verify Sector(s) — 40h, 41h................................................................. 76  
Table 63: Seek — 7Xh................................................................................................... 77  
Table 64: Set Features — EFh ...................................................................................... 78  
Table 65: Set Features’ Attributes ................................................................................. 78  
Table 66: Set Multiple Mode — C6h.............................................................................. 79  
Table 67: Set Sleep Mode — 99h, E6h ......................................................................... 80  
Table 68: Standby — 96h, E2h...................................................................................... 81  
Table 69: Standby Immediate — 94h, E0h.................................................................... 82  
Table 70: Write Buffer — E8h........................................................................................ 83  
Table 71: Write DMA — CAh......................................................................................... 84  
Table 72: Write Multiple — C5h..................................................................................... 85  
Table 73: Write Sector(s) — 30h, 31h ........................................................................... 86  
Table 74: Write Long Sector(s) — 32h, 33h .................................................................. 87  
Table 75: Erase Sector(s) — C0h.................................................................................. 88  
Table 76: Request Sense — 03h................................................................................... 89  
Table 77: Extended Error Codes ................................................................................... 89  
Table 78: Translate Sector — 87h................................................................................. 90  
Table 79: Wear-Level — F5h......................................................................................... 91  
Table 80: Write Multiple w/o Erase — CDh ................................................................... 92  
Table 81: Write Sector(s) w/o Erase — 38h .................................................................. 93  
Table 82: Write Verify — 3Ch ........................................................................................ 94  
Table 83: Part Numbering Nomenclature ...................................................................... 95  
Table 84: Part Numbers................................................................................................. 95  
Table 85: Related Documentation ................................................................................. 97  
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FEBRUARY 2, 2009  
PHYSICAL SPECIFICATIONS  
SSD-CXXX(I)-3600 DATA SHEET  
PHYSICAL SPECIFICATIONS  
The SiliconDrive CF products are offered in an industry-standard Type I form  
factor. See "Part Numbering" on page 95 for details regarding CF capacities.  
PHYSICAL DIMENSIONS  
This section provides diagrams that describe the physical dimensions for the  
CF.  
Figure 1: Physical Dimensions  
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PRODUCT SPECIFICATIONS  
SSD-CXXX(I)-3600 DATA SHEET  
PRODUCT SPECIFICATIONS  
Note: All SiliconDrive CF values quoted are typical at 25°C and nominal  
supply voltage.  
SYSTEM PERFORMANCE  
Table 1: System Performance  
Reset to Ready Startup Time (Typical/Maximum) 200ms/400ms  
Read Transfer Rate (Typical)  
Write Transfer Rate (Typical)  
Burst Transfer Rate  
8MBps  
6MBps  
16.7MBps  
2ms (maximum)  
Controller Overhead (Command to DRQ)  
SYSTEM POWER REQUIREMENTS  
Table 2: System Power Requirements  
DC Input Voltage  
3.3 ± 10%  
<0.5mA  
5.0 ± 10%  
Sleep (Standby Current)  
Read (Typical/Peak)  
Write (Typical/Peak)  
<1.0mA  
20mA/75mA  
30mA/75mA  
30mA/100mA  
40mA/100mA  
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PRODUCT SPECIFICATIONS  
SSD-CXXX(I)-3600 DATA SHEET  
RELIABILITY  
Table 3: Reliability  
4,000,000 hours  
<1 non-recoverable error in 10 bits read  
MTBF (@ 25ºC)  
Bit Error Rate  
14  
PROJECTED OPERATIONAL LIFE SPAN  
Table 4: Operational Life Span  
Capacity Service Life*  
8GB 324.3 Years  
SiliconDrive Part#  
GB Written per Day  
@ 135.2GB  
SSD-C08G-3600  
SSD-C04G-3600  
SSD-C02G-3600  
SSD-C01G-3600  
SSD-C51M-3600  
SSD-C25M-3600  
SSD-C12M-3600  
4GB  
162.2 Years  
81.1 Years  
40.5 Years  
20.3 Years  
10.1 Years  
5.1 Years  
@ 135.2GB  
@ 135.2GB  
@ 135.2GB  
@ 135.2GB  
@ 135.2GB  
@ 135.2GB  
2GB  
1GB  
512MB  
256MB  
128MB  
* There are unlimited read cycles. Service life is determined using  
SiliconSystems’ LifeEst calculation at 100% duty cycle with 25% write cycles.  
LifeEst is a comprehensive measurement that considers numerous factors to  
determine the projected life span of a SiliconDrive. A white paper that  
describes the benefits of LifeEst and how to calculate it can be found at http://  
The actual life of a SiliconDrive is dependant on the customer usage model.  
SiSMART is a patented technology of SiliconSystems that enables host  
systems to monitor actual usage of a SiliconDrive in real time. SiSMART  
measures and reports the remaining life of a SiliconDrive. For more  
information on SiSMART, refer to the Eliminating Unscheduled Downtime by  
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FEBRUARY 2, 2009  
       
PRODUCT SPECIFICATIONS  
SSD-CXXX(I)-3600 DATA SHEET  
PRODUCT CAPACITY SPECIFICATIONS  
Table 5: Product Capacity Specifications  
Numberof  
Sectors/  
Track  
Product Capacity  
Capacity (Bytes)  
Number of Number of Number  
Sectors  
Cylinders of Heads  
128MB  
256MB  
512MB  
1GB  
130,154,496  
254,208  
508,928  
1,019,088  
993  
8
32  
32  
63  
63  
63  
63  
63  
260,571,136  
521,773,056  
994  
16  
16  
16  
16  
16  
16  
1011  
2030  
4066  
8186  
1,047,674,880 2,046,240  
2,098,446,336 4,098,528  
4,224,761,856 8,251,488  
2GB  
4GB  
8GB  
8,455,200,768 16,514,064 16,383*  
* = All IDE drives 8GB and larger use 16383 cylinders, 16 heads, and 63 sectors/track due to  
interface restrictions.  
ENVIRONMENTAL SPECIFICATIONS  
Table 6: Environmental Specifications  
Temperature  
0ºC to 70ºC (Commercial)  
-40ºC to 85ºC (Industrial)  
8% to 95% non-condensing  
Humidity  
Vibration  
16.3gRMS, MIL-STD-810F, Method 514.5, Procedure I,  
Category 24  
Shock  
1000G, Half-sine, 0.5ms Duration  
50g Pk, MIL-STD-810F, Method 516.5, Procedure I  
80,000ft, MIL-STD-810F, Method 500.4, Procedure II  
Altitude  
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FEBRUARY 2, 2009  
       
ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
ELECTRICAL SPECIFICATION  
PIN ASSIGNMENTS  
The following table describes the SiliconDrive CF 50-pin IDE connector  
signals.  
Table 7: Pin Assignments  
PC Card  
Memory  
Mode  
PC Card  
Memory  
Mode  
PC Card  
I/O Mode Mode  
IDE-ATA  
PC Card  
I/O Mode Mode  
IDE-ATA  
Pin  
Pin  
1
2
GND  
D3  
GND  
D3  
GND  
D3  
26 CD1#  
CD1#  
D111  
D121  
D131  
D141  
CD1#  
D111  
D121  
D131  
D141  
D111  
27  
D121  
28  
3
4
5
6
D4  
D5  
D6  
D7  
D4  
D5  
D6  
D7  
D4  
D5  
D6  
D7  
D131  
29  
D141  
30  
D151  
31  
D151  
D151  
7
8
9
CE1#  
A10  
CE1#  
A10  
OE#  
A9  
CE1#  
A10  
32 CE2#  
33 VS1#  
34 IORD#  
35 IOWR#  
CE2#  
VS1#  
CE2#  
VS1#  
OE#  
OE#  
IORD#  
IOWR#  
IORD#  
IOWR#  
A92  
A82  
10 A9  
11 A8  
A8  
A7  
VCC  
A6  
A5  
A4  
A3  
36 WE#  
WE#  
WE#  
A7 2  
VCC  
12 A7  
13 VCC  
14 A6  
15 A5  
16 A4  
17 A3  
37 RDY/BSY IREQ  
RDY/BSY  
VCC  
38 VCC  
VCC  
A62  
A52  
A42  
39 CSEL#  
40 VS2#  
41 RESET#  
42 WAIT#  
CSEL#  
VS2#  
CSEL#  
VS2#  
RESET#  
WAIT#  
RESET#  
WAIT#  
A32  
A2  
A1  
A0  
D0  
D1  
18 A2  
19 A1  
20 A0  
21 D0  
22 D1  
A2  
A1  
A0  
D0  
D1  
43 INPACK# INPACK# DMARQ  
44 REG#  
45 BVD2  
46 BVD1  
REG#  
DMACK#  
DASP#  
SPKR#  
STSCHG# PDIAG#  
D81  
47  
D81  
D91  
D81  
D91  
D91  
48  
23 D2  
D2  
D2  
D101  
49  
D101  
GND  
D101  
GND  
24 WP  
25 CD2#  
-IOIS16  
CD2#  
-IOIS16  
CD2#  
50 GND  
Notes:  
1 = These signals are required only for 16-bit access, and not required when installed in  
8-bit systems.  
2 = Should be grounded by the host.  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
SIGNAL DESCRIPTIONS  
Table 8: Signal Descriptions  
Signal Name  
Pin  
Type Description  
I These address lines along with the  
A10-A0  
8, 10, 11,  
12, 14, 15,  
16, 17, 18,  
19, 20  
-REG signal are used to select the  
following:  
• The I/O port address registers  
within the SiliconDrive CF  
• The memory-mapped port address  
registers within the SiliconDrive CF  
• A byte in the card's information  
structure and its configuration  
control and status registers  
A10-A0  
This signal is the same as the PC  
Card Memory Mode signal.  
(PC Card I/O  
mode)  
A2-A0  
18, 19, 20 I  
In true IDE mode, only A[2:0] are used  
to select the one of eight registers in  
the Task File. The remaining address  
lines should be grounded by the host.  
(True IDE mode)  
BVD1  
46  
I/O  
This signal is asserted high, because  
BVD1 is not supported.  
(PC Card memory  
mode)  
-STSCHG  
This signal is asserted low to alert the  
host to changes in the RDY/-BSY and  
Write Protect states while the I/O  
interface is configured. This signal’s  
use is controlled by the Card  
(PC Card I/O  
mode)  
Configuration and Status register.  
-PDIAG  
In the true IDE mode, this input/output  
is the Pass Diagnostic signal in the  
Master/Slave handshake protocol.  
(True IDE mode)  
BVD2  
45  
I/O  
This signal is asserted high, as BVD2  
is not supported.  
(PC Card memory  
mode)  
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FEBRUARY 2, 2009  
   
ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 8: Signal Descriptions (Continued)  
Signal Name  
Pin  
Type Description  
-SPKR  
This line is the Binary Audio output  
from the card. If the Card does not  
support the Binary Audio function, this  
line should be held negated.  
(PC Card I/O  
mode)  
-DASP  
In the true IDE mode, this input/output  
is the Disk Active/Slave Present  
signal in the Master/Slave handshake  
protocol.  
(True IDE mode)  
-CD1, -CD2  
26, 25  
O
These Card Detect pins are  
connected to ground on the  
(PC Card memory  
mode)  
SiliconDrive CF, and are used by the  
host to determine that the SiliconDrive  
CF is fully inserted into its socket.  
-CD1, -CD2  
This signal is the same for all modes.  
(PC Card I/O  
Mode)  
-CD1, -CD2  
This signal is the same for all modes.  
(True IDE mode)  
-CE1, -CE2  
7, 32  
I
These input signals are used both to  
select the card and to indicate to the  
card whether a byte or a word  
(PC Card memory  
mode)  
operation is being performed.  
Card Enable  
• -CE2 always accesses the odd  
byte of the word.  
• -CE1 accesses the even byte or  
the odd byte of the word depending  
on A0 and -CE2.  
A multiplexing scheme based on A0,  
-CE1, and -CE2 allows 8-bit hosts to  
access all data on D0-D7. See  
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FEBRUARY 2, 2009  
ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 8: Signal Descriptions (Continued)  
Signal Name  
Pin  
Type Description  
-CE1, -CE2  
This signal is the same as the PC  
Card Memory Mode signal. See "I/O  
(PC Card I/O  
mode)  
Card Enable  
-CS0, -CS1  
In the true IDE mode, -CS0 is the chip  
select for the task file registers while  
-CS1 is used to select the Alternate  
Status register and the Device Control  
register.  
(True IDE mode)  
-CSEL  
39  
I
This signal is not used for this mode.  
(PC Card memory  
mode)  
-CSEL  
This signal is not used for this mode.  
(PC Card I/O  
mode)  
-CSEL  
This internally pulled-up signal is used  
to configure this device as a master or  
slave when configured in the true IDE  
mode.  
(True IDE mode)  
When this pin is:  
• Grounded, this device is configured  
as a master.  
• Open, this device is configured as  
a slave.  
-INPACK  
43  
O
This signal is not used in this mode.  
(PC Card memory  
mode)  
-INPACK  
This signal is asserted by the  
SiliconDrive CF when the card is  
selected and responding to an I/O  
read cycle at the address that is on  
the address bus. This signal is used  
by the host to control the enabling of  
any input data buffers between the  
SiliconDrive CF and the CPU.  
(PC Card I/O  
mode)  
Input Acknowledge  
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FEBRUARY 2, 2009  
ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 8: Signal Descriptions (Continued)  
Signal Name  
Pin  
Type Description  
DMARQ  
43  
O
In true IDE mode, this signal is used  
for DMA transfers between the host  
and device. DMARQ is asserted by  
the device when the device is ready to  
transfer data to/from the host. The  
direction of data transfer is controlled  
by -IORD and -IOWR. This signal is  
used in a handshake manner with  
-DMACK (i.e., the device waits until  
the host asserts -DMACK before  
negating DMARQ, and reasserts  
DMARQ if there is more data to  
transfer). The DMARQ/-DMACK  
handshake is used to provide flow  
control during the transfer.  
(True IDE mode)  
D15-D00  
31, 30, 29, I/O  
28, 27, 49,  
48, 47, 6,  
5, 4, 3, 2,  
23, 22, 21  
These lines carry the data,  
commands, and status information  
between the host and the controller.  
(PC Card memory  
mode)  
• D00 is the LSB of the word’s even  
byte.  
• D08 is the LSB of the word’s odd  
byte.  
D15-D00  
This signal is the same as the PC  
Card Memory Mode signal.  
(PC Card I/O  
mode)  
D15-D00  
In true IDE mode, all Task File  
operations occur in byte mode on the  
low-order bus D00-D07, while all data  
transfers are 16 bits using D00-D15.  
(True IDE mode)  
GND  
1, 50  
-
Ground.  
(PC Card memory  
mode)  
GND  
This signal is the same for all modes.  
This signal is the same for all modes.  
(PC Card I/O  
mode)  
GND  
(True IDE mode)  
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FEBRUARY 2, 2009  
ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 8: Signal Descriptions (Continued)  
Signal Name  
Pin  
Type Description  
-IORD  
34  
I
This signal is not used in this mode.  
(PC Card memory  
mode)  
-IORD  
This is an I/O read strobe generated  
by the host. This signal gates I/O data  
onto the bus from the SiliconDrive CF  
when the card is configured to use the  
I/O interface.  
(PC Card I/O  
mode)  
-IORD  
In true IDE mode, this signal has the  
same function as the PC Card I/O  
mode.  
(True IDE mode)  
-IOWR  
35  
I
This signal is not used in this mode.  
(PC Card memory  
mode)  
-IOWR  
The I/O write strobe pulse is used to  
clock I/O data on the Card data bus  
into the SiliconDrive CF controller  
registers when the SiliconDrive CF is  
configured to use the I/O interface.  
(PC Card I/O  
mode)  
The clocking occurs on the negative-  
to-positive edge of the signal (the  
trailing edge).  
-IOWR  
In true IDE mode, this signal has the  
same function as the PC Card I/O  
mode.  
(True IDE mode)  
-OE  
9
I
This is an output enable strobe  
generated by the host interface, which  
is used to read:  
(PC Card memory  
mode)  
• Data from the SiliconDrive CF in  
memory mode.  
• The CIS and configuration  
registers.  
-OE  
In PC Card I/O mode, this signal is  
used to read the CIS and  
configuration registers.  
(PC Card I/O  
mode)  
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FEBRUARY 2, 2009  
ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 8: Signal Descriptions (Continued)  
Signal Name  
Pin  
Type Description  
-ATA SEL  
To enable true IDE mode, this input  
should be grounded by the host.  
(True IDE mode)  
-RDY/-BSY  
37  
O
In memory mode, this signal is:  
(PC Card memory  
mode)  
• Set high when the SiliconDrive CF  
is ready to accept a new data  
transfer operation.  
• Held low when the card is busy.  
The host memory card socket must  
provide a pull-up resistor.  
At power-up and reset, the RDY/-BSY  
signal is held low (busy) until the  
SiliconDrive CF has completed its  
power-up or reset function. No access  
of any type should be made to the  
SiliconDrive CF during this time. The  
RDY/-BSY signal is held high  
(disabled from being busy) whenever  
the SiliconDrive CF has been  
powered up with +RESET  
continuously disconnected or  
asserted.  
-IREQ  
I/O Operation. After the SiliconDrive  
CF has been configured for I/O  
operation, this signal is used as  
-Interrupt Request. This line is strobed  
low to generate a pulse mode  
interrupt or held low for a level mode  
interrupt.  
(PC Card I/O  
mode)  
Input Acknowledge  
-IREQ  
In true IDE mode, this signal is the  
active high Interrupt Request to the  
host.  
(True IDE mode)  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 8: Signal Descriptions (Continued)  
Signal Name  
Pin  
Type Description  
-REG  
44  
I
This signal is used during memory  
cycles to distinguish between  
common memory and register  
(attribute) memory accesses. This  
signal is set:  
(PC Card memory  
mode)  
Attribute Memory  
Select  
• High for common memory.  
• Low for attribute memory.  
-REG  
The signal must also be active (low)  
during I/O cycles when the I/O  
address is on the bus.  
(PC Card I/O  
mode)  
-DMACK  
In true IDE mode, this signal is used  
by the host in response to DMARQ to  
initiate DMA transfers. The DMARQ/  
-DMACK handshake is used to  
provide flow control during the  
(True IDE mode)  
transfer. When -DMACK is asserted,  
-CS0 and -CS1 are not asserted and  
transfers are 16-bits wide.  
-RESET  
41  
I
When the pin is high, this signal  
resets the SiliconDrive CF. The  
SiliconDrive CF is reset only at power-  
up if this pin is left high or open from  
power-up. The SiliconDrive CF is also  
reset when the Soft Reset bit in the  
Card Configuration Option register is  
set.  
(PC Card memory  
mode)  
-RESET  
This signal is the same as the PC  
Card Memory Mode signal.  
(PC Card I/O  
mode)  
-RESET  
In the true IDE mode, this input pin is  
the active low hardware reset from the  
host.  
(True IDE mode)  
V
13, 38  
-
+5V, +3.3V power.  
CC  
(PC Card memory  
mode)  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 8: Signal Descriptions (Continued)  
Signal Name  
Pin  
Type Description  
V
This signal is the same for all modes.  
CC  
(PC Card I/O  
mode)  
V
This signal is the same for all modes.  
CC  
(True IDE mode)  
-VS1, -VS2  
33, 40  
O
Voltage Sense Signals.  
• -VS1 is grounded so that the  
SiliconDrive CF CIS can be read at  
3.3V.  
• -VS2 is reserved by PC Card for a  
secondary voltage.  
-VS1, -VS2  
This signal is the same for all modes.  
This signal is the same for all modes.  
(PC Card I/O  
mode)  
-VS1, -VS2  
(True IDE mode)  
-WAIT  
42  
O
The -WAIT signal is driven low by the  
SiliconDrive CF to signal the host to  
delay completion of a memory or I/O  
cycle that is in progress.  
(PC Card memory  
mode)  
-WAIT  
This signal is the same as the PC  
Card Memory Mode signal.  
(PC Card I/O  
mode)  
-IORDY  
In true IDE mode, this output signal  
may be used as IORDY.  
(True IDE mode)  
-WE  
36  
I
This is a signal driven by the host and  
used for strobing memory write data  
to the registers of the SiliconDrive CF  
when the card is configured in the  
memory interface mode. This signal is  
also used for writing the configuration  
registers.  
(PC Card memory  
mode)  
-WE  
In PC Card I/O mode, this signal is  
used for writing the configuration  
registers.  
(PC Card I/O  
mode)  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 8: Signal Descriptions (Continued)  
Signal Name  
Pin  
Type Description  
-WE  
In true IDE mode, this input signal is  
not used and should be connected to  
(True IDE mode)  
V
by the host.  
CC  
WP  
24  
O
Write Protect Memory Mode. The  
SiliconDrive CF does not have a write  
protect switch. This signal is held low  
after the completion of the reset  
initialization sequence.  
(PC Card memory  
mode)  
-IOIS16  
I/O Operation. When the SiliconDrive  
CF is configured for I/O operation, pin  
24 is used for the -I/O Selected, which  
is a 16-bit port (-IOIS16) function. A  
low signal indicates that a 16-bit or  
odd byte only operation can be  
(PC Card I/O  
mode)  
performed at the addressed port.  
-IOIS16  
In true IDE mode, this output signal is  
asserted low when this device is  
expecting a word data transfer cycle.  
(True IDE mode)  
ABSOLUTE MAXIMUM RATINGS  
Table 9: Absolute Maximum Ratings  
Parameter Minimum Maximum Units  
Symbol  
T
Storage Temperature  
-55  
125  
85  
°C  
°C  
V
s
T
Operating Temperature  
-40  
A
V
V
V
with Respect to GND  
CC  
-0.3  
-0.5  
-0.3  
6.7  
3.8  
3.6  
CC  
in  
Input Voltage  
V
V
Output Voltage  
V
out  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
CAPACITANCE  
Table 10: Capacitance  
Symbol  
Parameter  
Maximum  
Units  
pF  
C
Input Capacitance  
35  
35  
35  
in  
C
Output Capacitance  
Bidirectional Capacitance  
pF  
out  
C
pF  
I/O  
DC CHARACTERISTICS  
Table 11: DC Characteristics  
3.3 V ±10%  
Minimum Maximum Minimum Maximum  
5V ±10%  
Symbol Parameter  
Units  
V
V
Power Supply 3.0  
Voltage  
3.6  
4.5  
5.5  
CC  
I
I
Input Leakage -  
*(1) Current  
5
-
-
5
μA  
LI  
Output  
-
5
5
μA  
LO  
Leakage *(1)  
Current  
V
V
V
V
Read  
CC  
-
-
-
50  
-
80  
mA  
mA  
mA  
V
CCR  
CCW  
CCS  
Current  
Write  
V
50  
-
80  
CC  
Current  
Standby  
V
0.3  
-
0.5  
CC  
Current  
V
V
V
V
Input Low  
Voltage  
-0.3  
2.5  
-
0.3 x V  
-0.3  
0.3 x V  
CC  
IL  
CC  
Input High  
Voltage  
V
+ 0.3 2.5  
V + 0.3 V  
CC  
IH  
CC  
Output Low  
Voltage  
0.4  
-
-
0.4  
-
V
V
OL  
OH  
Output High  
Voltage  
2.4  
2.4  
*(1) Except the pulled-up/pulled-down pin.  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
AC CHARACTERISTICS  
Attribute and Common Memory Read Timing  
tRC  
tGHAX  
tA(A)  
____  
A[10::0],REG  
tA(CE)  
tAXQX  
tELWL  
__  
CE  
tAVWL  
__  
OE  
tGHEH  
tA(OE)  
tDIS(OE)  
tEN(OE)  
D[15::0]  
Figure 2: Attribute and Common Memory Read Timing Diagram  
Table 12: Attribute and Common Memory Read Timing  
Symbol Parameter  
Minimum Maximum Units  
t
Read Cycle Time  
100  
-
-
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
RC  
t (A)  
Address Access Time  
Card Enable Access Time  
Output Enable Access Time  
100  
A
t (CE)  
-
100  
A
t (OE)  
-
50  
50  
-
A
t
t
t
t
t
t
t
(OE) Output Disable Time from OE  
-
DIS  
(OE) Output Enable Time from OE  
5
EN  
Data Valid from Address Change  
Address Setup Time  
0
-
AXQX  
AVWL  
AXQX  
ELWL  
GHEH  
10  
15  
0
-
Address Hold Time  
-
Card Enable Setup Time before OE  
Card Enable Hold Time following OE  
-
15  
-
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
Attribute and Common Memory Write Timing  
tWR  
____  
A[10::0],REG  
tELWH  
tELWL  
__  
CE  
tGHEH  
tAVWH  
__  
OE  
tWLWH  
tWHAX  
tAVWL  
___  
WE  
tWHOL  
tWLOL  
tDVWH  
tWHDX  
D[15:0](Dout)  
tWLQZ  
tOHDX  
tOLWH  
tWHOX  
D[15:0](Dout)  
Figure 3: Attribute and Common Memory Write Timing Diagram  
Table 13: Attribute and Common Memory Write Timing  
Symbol Parameter  
Minimum Maximum Units  
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
Write Cycle Time  
100  
60  
10  
70  
70  
10  
15  
-
-
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
WR  
Write Pulse Width  
-
WLWH  
AVWL  
AVWH  
ELWH  
WHDX  
WHAX  
WLQZ  
OLWH  
WHOX  
OHDX  
WLOL  
WHOL  
ELWL  
GHEH  
DVWH  
Address Setup Time  
-
Address Setup Time for WE  
Card Enable Setup Time for WE  
Data Hold Time  
-
-
-
Write Recover Time  
-
Output Disable Time from WE  
Output Disable Time from OE  
Output Enable Time from WE  
Output Enable Time from OE  
Output Enable Setup for WE  
Output Enable Hold from WE  
Card Enable Setup Time before WE  
Card Enable Hold Time from WE  
Data Setup Time  
75  
-
100  
5
-
-
-
-
-
-
-
5
10  
10  
0
15  
40  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
I/O Access Read Timing  
A[10::0]  
tGHAX  
tRLIGL  
____  
REG  
tRHIGH  
tCLIGL  
tCHIGH  
__  
CE  
tIGLIGH  
___  
IORD  
tIGHINH  
tAVIGL  
______  
INPACK  
tIGLINL  
tAXISH  
______  
IOIS16  
tAVISL  
tIGHQX  
tDVRL  
D[15::0]  
Figure 4: I/O Access Read Timing Diagram  
Table 14: I/O Access Read Timing  
Symbol Parameter  
Minimum  
Maximum Units  
t
t
t
t
t
t
t
t
t
t
t
t
t
Data Delay after IORD  
-
50  
-
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
DVRL  
Data Hold following IORD  
IORD Pulse Width  
5
IGHQX  
IGLIGH  
AVIGL  
GHAX  
CLIGL  
CHIGH  
RLIGL  
RHIGH  
IGLINL  
IGHINH  
AVISL  
65  
25  
10  
5
-
Address Setup before IORD  
Address Hold following IORD  
CE Setup before IORD  
-
-
-
CE Hold following IORD  
10  
5
-
REG Setup before IORD  
-
REG Hold following IORD  
INPACK Delay falling from IORD  
INPACK Delay Rising from IORD  
IOIS16 Delay Falling from Address  
IOIS16 Delay Rising from Address  
0
-
-
(1)  
(1)  
(1)  
(1)  
-
-
-
AXISH  
Note: (1) IOIS16 and INPACK are not supported.  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
I/O Access Write Timing  
A[10::0]  
tAXIGH  
tRHIGH  
tRLIGL  
____  
REG  
tCHIGH  
tCLIGL  
__  
CE  
tIGLIGH  
_____  
IOWR  
tAVIGL  
tAXISH  
______  
IOIS16  
tAVISL  
tIGHQX  
tIGHDX  
D[15::0]  
Figure 5: I/O Access Write Timing Diagram  
Table 15: I/O Access Write Timing  
Symbol  
Parameter  
Data Hold following IOWR  
Minimum  
Maximum Units  
t
t
t
t
t
t
t
t
t
t
t
5
-
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
IGHDX  
IGHQX  
IGLIGH  
AVIGL  
AXIGH  
CLIGL  
CHIGH  
RLIGL  
RHIGH  
AVISL  
Data Setup before IOWR  
IOWR Pulse Width  
20  
65  
25  
10  
5
-
-
Address Setup before IOWR  
Address Hold following IOWR  
CE Setup before IOWR  
-
-
-
CE Hold following IOWR  
10  
5
-
REG Setup before IOWR  
REG Hold following IOWR  
IOIS16 Delay Falling from Address  
IOIS16 Delay Rising from Address  
-
0
-
-
(1)  
(1)  
-
AXISH  
Note: (1) IOIS16 and INPACK are not supported.  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
True IDE Read/Write Access Timing  
tICL  
ADDRESS Valid  
CS0, CS1, DA[2::0]  
tAX16H  
tAVRWL  
tAXRWH  
tRWPW  
____ _____  
DIOR,DIOW  
tDVWL  
WRITE  
DD[15::00]  
tDXWH  
READ  
DD[15::00]  
tDVRL  
tIOPW  
tDXRH  
tIOST  
IORDY  
______  
IOIS16  
tAV16L  
Figure 6: True IDE Read/Write Access Timing Diagram  
Table 16: True IDE Read/Write Access Timing  
Symbol Parameter  
Minimum Maximum Units  
t
t
t
t
t
t
t
t
t
t
t
t
Cycle Time  
Address Valid to DIOR,DIOW Setup Time 15  
100  
-
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ICL  
-
AVRWL  
RWPW  
DVWL  
DXWH  
DVRL  
DXRH  
AV16L  
AX16H  
AXRWH  
IOST  
DIOR, DIOW Pulse Width  
DIOW Data Setup Time  
65  
20  
5
-
-
DIOW Data Hold Time  
-
DIOR Data Setup Time  
15  
5
-
DIOR Data Hold Time  
-
Address Valid to IOCS16 Assertion  
Address Valid to IOCS16 Negation  
DIOW,DIOR to Address Valid Hold Time  
IORDY Setup Time  
-
(1)  
(1)  
-
-
10  
-
(1)  
(1)  
IORDY Pulse Width  
-
IOPW  
Note: (1) IOIS16 and INPACK are not supported.  
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ELECTRICAL SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
True IDE Multiword DMA Read/Write Access Timing  
This function does not apply to SiliconDrives that have DMA disabled.  
Figure 7: True IDE Multiword DMA Read/Write Access Timing  
Table 17: True IDE Multiword DMA Read/Write Access Timing  
Symbol Parameter  
Minimum  
Maximum Units  
t
t
t
t
t
t
t
t
t
t
t
t
Cycle Time (mode 2)  
100  
65  
-
-
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
RWC  
RWPW  
RDA  
DIOR/DIOW Pulse Width  
DIOR Data Access  
-
50  
-
DIOR/DIOW Data Setup Time  
DIOW Data Hold Time  
15  
5
RWSU  
WH  
-
DIOR Data Hold Time  
5
-
RH  
DMACK to DIOR/DIOW Setup Time  
DIOR/DIOW to DMACK Hold Time  
DIOR/DIOW negated Pulse Width  
DIOR/DIOW to DMARQ Delay  
CS(1:0) valid to DIOR/DIOW  
CS(1:0) Hold Time  
0
-
DMRW  
RWDH  
RWN  
RWD  
CSRW  
CSH  
5
-
25  
-
-
35  
-
10  
10  
-
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
The attribute memory plane can be read or written to by asserting the REG#  
signal, qualified by the appropriate combination of CE1#, OE#, and WE#. An  
attribute memory map describing the type and location of the information  
maintained in the attribute memory plane is provided in "Attribute Memory  
With respect to SiliconDrive CF, attribute memory consists of two sections:  
• Card Information Structure (CIS), which contains a description of the Card’s  
capabilities and specifications.  
• Function Configuration Registers (FCRs), which consists of four registers,  
that can be read or written to by a host to configure the Card for specific  
purposes.  
ATTRIBUTE MEMORY READ OPERATIONS  
Attribute memory read operations are enabled by asserting REG#, OE#, and  
CE1# low. Odd byte read operations from the attribute memory plane are not  
valid.  
Table 18: Attribute Memory Read Operations  
Function  
Mode  
REG# CE1# CE2# A0  
OE# WE# D[15:8] D[7:0]  
Standby  
L
L
L
H
L
H
H
L
X
L
X
L
X
H
H
H
H
High-Z  
High-Z  
High-Z  
High-Z  
Even  
Byte Access  
H
L
H
X
X
L
Not Valid  
Word Access L  
L
L
Not Valid Even  
Odd Byte  
L
L
H
H
Not Valid High-Z  
Only Access  
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
ATTRIBUTE MEMORY WRITE OPERATIONS  
Attribute memory write operations are enabled by asserting REG#, WE#, and  
CE1# low. Odd byte write operations from the attribute memory plane are not  
valid.  
Table 19: Attribute Memory Write Operations  
Function  
Mode  
REG# CE1# CE2# A0  
OE# WE# D[15:8] D[7:0]  
Standby  
L
L
L
H
L
H
H
L
X
L
X
H
H
H
H
X
L
High-Z  
High-Z  
High-Z  
High-Z  
Even  
Byte Access  
H
L
H
X
X
L
Not Valid  
Word Access L  
L
L
Not Valid Even  
Odd Byte  
L
L
H
H
Not Valid High-Z  
Only Access  
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FEBRUARY 2, 2009  
   
ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
ATTRIBUTE MEMORY MAP  
As stated earlier, the Attribute Memory plane is comprised of two components,  
the CIS and the FCRs. The following tables detail the type, location, and read/  
write requirements for each of the four FCRs maintained in the attribute  
memory plane.  
Table 20: Attribute Memory Map  
Register  
Operation Addr CE1# REG# WE# OE#  
Card Information Structure Read  
Write  
X
X
0
0
0
0
0
0
0
1
0
1
0
1
0
1
0
1
0
Configuration Option  
Read  
Write  
Read  
200h 0  
200h 0  
202h 0  
Card Configuration and  
Status  
Write  
Read  
Write  
Read  
Write  
202h 0  
204h 0  
204h 0  
206h 0  
206h 0  
0
0
0
0
0
0
1
0
1
0
1
0
1
0
1
Pin Replacement  
Socket and Copy  
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
CARD INFORMATION STRUCTURE  
The CIS is data that describes the SiliconDrive CF, and is described by the  
CFA standard. This information can be used by the host system to determine a  
number of things about the Card that has been inserted. For information  
regarding the exact nature of this data and how to design the host software to  
interpret it, refer to the PC Card Standard Metaformat Specification.  
Table 21: Card Information Structure  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
00h  
02h  
04h  
01h  
03h  
D9h  
CISTPL_DEVICE  
-
Device information tuple  
Link length is 3 bytes  
Tuple code  
Link to next tuple  
Device Type  
Code  
W
Device  
Speed  
1
I/O device  
No WP  
Speed = 100ns  
Device ID  
WPS  
Device speed  
Dh = I/O  
1
06h  
08h  
0Ah  
0Ch  
0Eh  
01h  
FFh  
1Ch  
04h  
02h  
1X  
2K  
2KB of address space  
End of device  
Device size  
List End Marker  
END marker  
Tuple code  
CISTPL_DEVICE_OC  
TPL_LINK  
Other conditions device in tuple code  
Link length is 4 bytes  
3V, wait is Not Used  
Link to next tuple  
EXT Reserved  
MWAIT  
V
Other conditions  
information field  
CC  
10h  
D9h  
Device Type  
W
P
S
Device  
Speed  
Device type = DH: I/O  
Device WPS = 1: No WP  
Device speed = 1: 250ns  
-
12h  
14h  
16h  
18h  
1Ah  
01h  
FFh  
18h  
02h  
DFh  
1x  
2K units  
List End Marker  
2KB of address space  
End of device  
Device size  
End marker  
Tuple code  
CISTPL_JEDEC_C  
TPL_LINK  
JEDEC ID common memory  
Link length is 2 bytes  
Link to next tuple  
PCMCIA Manufacturer’s JEDEC Manufacturer’s ID code  
-
-
JEDEC ID  
1Ch  
1Eh  
20h  
22h  
01h  
20h  
04h  
PCMCIA JEDEC Device Code  
CISTPL_MANFID  
TPL_LINK  
Second byte of JEDEC ID  
-
Manufacturer’s ID code  
-
Tuple code  
-
00h Low Byte of PCMCIA Manufacturer’s JEDEC manufacturer’s ID  
Code  
Low byte of  
manufacturer’s  
code  
24h  
00h  
High Byte of PCMCIA  
Manufacturer’s Code  
Code of 0, because the other byte is the High byte of the  
JEDEC 1 byte manufacturer’s ID  
manufacturer’s  
code  
26h  
28h  
00h  
00h  
Low Byte of Product Code  
High Byte of Product Code  
Manufacturer’s code for SiliconDrive CF Low byte of the  
product code  
Manufacturer’s code for SiliconDrive CF High byte of the  
product code  
2Ah  
2Ch  
21h  
02h  
CISTPL_FUNCID  
TPL_LINK  
Function ID tuple  
Tuple code  
Link length is 2 bytes  
Link to next tuple  
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
2Eh  
04h  
TPLFID_FUNCTION = 04H  
Reserved  
Disk function, which may be silicon or  
removable  
PC Card function  
code  
30h  
01h  
R
P
R = 0: No BIOS ROM  
P = 1: Configure card at power-on byte  
System initialization  
32h  
34h  
36h  
22h  
02h  
CISTPL_FUNCE  
TPL_LINK  
Function extension tuple  
Link length is 2 bytes  
Tuple code  
Link to next tuple  
01h Disk Function Extension Tuple Type Disk interface type  
Extension tuple type  
for disk  
38h  
3Ah  
3Ch  
3Eh  
01h  
22h  
03h  
Disk Interface Type  
CISTPL_FUNCE  
TPL_LINK  
PC Card interface type  
Function extension tuple  
Link length is 3 bytes  
Interface type  
Tuple code  
Link to next tuple  
02h Disk Function Extension Tuple Type Basic PCMCIA-ATA extension tuple  
Extension tuple type  
for disk  
40h  
04h  
Reserved  
D
U
S
V
No Vpp, silicon, single drive  
Basic ATA option  
parameters byte 1  
V = 0: No Vpp required  
S = 0: Silicon  
U = 1: Unique serial number  
D = 0: Single drive on Card  
42h  
07h  
R
I
E
N
P3 P2 P1 P0 • P0: Sleep mode supported  
Basic ATA option  
parameters byte 2  
P1: Standby mode supported  
P2: Idle mode supported  
P3: Drive auto power control  
N: Some configuration excludes 3X7  
E: Index bit is emulated  
I: Twin IOIS16# data register only  
R: Reserved  
44h  
46h  
48h  
1Ah  
05h  
01h  
CISTPL_CONFIG  
TPL_LINK  
Configuration tuple  
Tuple code  
Link length is 5 bytes  
Link to next tuple  
RAS  
RMS  
RAS  
-
RFS: Reserved  
Size of fields byte  
TPCC_SZ  
RMS: TPCC RMSK size -1 = 0  
RAS: TPCC_RADR size -1 = 1  
1-byte register mask  
2-byte configuration base address  
4Ah  
4Ch  
07h  
00h  
TPCC_LAST  
Entry with configuration index of 7 is final Last entry of  
entry in table  
configuration  
registers  
TPCC_RADR (LSB)  
TPCC_RADR (MSB)  
Configuration registers are located at  
200H in REG space  
Location of  
configuration  
registers  
4Eh  
50h  
02h  
0Fh  
-
-
Reserved  
S
P
C
I
-
I: Configuration index  
C: Configuration and status  
P: Pin replacement  
Configuration  
registers present  
mask  
S: Socket and copy  
TPCC_RMSK  
52h  
54h  
1Bh  
0Bh  
CISTPL_TABLE_ENTRY  
TPL_LINK  
Configuration table entry tuple  
Link length is 11 bytes  
Tuple code  
Link to next tuple  
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FEBRUARY 2, 2009  
ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
56h  
C0h  
I
D
Configuration index  
Memory-mapped I/O configuration  
Configuration table  
index byte  
TPCE_INDX  
I = 1: Interface byte follows  
D = 1: Default entry  
Configuration index = 0  
58h  
C0h  
A1h  
W
M
R
P
B
Interface Type  
W = 0: Wait not used  
R = 1: Ready active  
P = 0: WP used  
B = 0: BVD1 and BVD2 not used  
IF type = 0: Memory interface  
Interface description  
field TPCE_IF  
5Ah  
MS IR IO  
T
P
M = 1: Miscellaneous information  
present  
MS = 01: Memory space information  
single 2-byte length  
IR = 0: No interrupt information  
present  
IO = 0: No I/O port information  
present  
Feature selection  
byte TPCE_FS  
T = 0: No timing information present  
P = 1: V only information  
CC  
5Ch  
27h  
R
DI PI AI SI HV LV NV Nominal voltage only follows  
Power parameters  
for V  
CC  
R: Reserved  
DI: Powerdown current information  
PI: Peak current information  
AI: Average current information  
SI: Static current information  
HV: Maximum voltage information  
LV: Minimum voltage information  
NV: Nominal voltage information  
5Eh  
60h  
62h  
64h  
55h  
4Dh  
5Dh  
75h  
X
X
X
X
Mantissa  
Mantissa  
Exponent Nominal voltage = 5V  
V
V
V
nominal value  
minimum value  
maximum value  
CC  
CC  
CC  
Exponent  
Exponent  
Exponent  
V
V
nominal 4.5V  
nominal 5.5V  
CC  
CC  
Mantissa  
Mantissa  
Maximum average current over 10ms is Maximum average  
80mA  
current  
66h  
68h  
6Ah  
08h  
00h  
21h  
Length in 256 bytes pages (LSB) Length of memory space is 2KB  
Length in 256 bytes pages (MSB) Length of memory space is 2KB  
Memory space  
description  
structures  
(TPCE_MS)  
Memory space  
description  
structures  
(TPCE_MS)  
X
R
P
RO  
AT  
-
X = 0: No more miscellaneous fields Miscellaneous  
R: Reserved  
features field  
TPCE_MI  
P = 1: Powerdown supported  
RO = 0: Not read only mode  
A = 0: Audio not supported  
T = 0: Single drive  
6Ch  
6Eh  
1Bh  
06h  
CISTPL_TABLE_ENTRY  
TPL_LINK  
Configuration table entry tuple  
Link length is 6 bytes  
Tuple code  
Link to next tuple  
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
70h  
00h  
I
D
IR IQ  
T
P
-
-
Memory-mapped I/O configuration  
Configuration table  
index byte  
TPCE_INDX  
I = 0: No interface byte  
D = 0: No default entry  
Configuration index = 0  
72h  
01h  
M
MS IR IO  
T
P
M = 0: No miscellaneous information Feature selection  
MS = 00: No memory space  
information  
byte  
TPCE_FS  
IR = 0: No interrupt information  
present  
IO = 0: No I/O port information  
present  
T = 0: No timing information present  
P = 1: V only information  
CC  
74h  
21h  
R
DI PI AI SI HV/LV/NV Nominal voltage only follows  
Power parameters  
for V  
CC  
R: Reserved  
DI: Powerdown current information  
PI: Peak current information  
AI: Average current information  
SI: Static current information  
HV: Maximum voltage information  
LV: Minimum voltage information  
NV: Nominal voltage information  
76h  
B5h  
X
X
Mantissa  
Extension  
Mantissa  
Exponent  
Nominal voltage = 3.0 V  
+0.3 V  
V
nominal value  
CC  
78h  
7Ah  
1Eh  
4Dh  
Extension byte  
Exponent  
Maximum average current over 10ms is Maximum average  
45 mA  
current  
7Ch  
7Eh  
80h  
1Bh  
0Dh  
C1h  
CISTPL_TABLE_ENTRY  
TPL_LINK  
Configuration table entry tuple  
Link length is 10 bytes  
Tuple code  
Link to next tuple  
I
D
Configuration  
INDEX  
Contiguous I/O mapped ATA registers  
configuration  
Configuration table  
index byte  
TPCE_INDX  
I = 1: Interface byte follows  
D = 1: Default entry  
Configuration index = 1  
82h  
84h  
41h  
99h  
W
M
R
P
B
Interface Type  
W = 0: Wait not used  
R = 1: Ready active  
P = 0: WP not used  
B = 0: BVS1 and BVD2 not used  
IF type = 1: I/O interface  
Interface description  
field TPCE_IF  
MS IR IO  
T
P
-
M = 1: Miscellaneous information  
present  
Feature selection  
byte TPCE_FS  
MS = 00: No memory space  
information  
IR = 1: Interrupt information present  
IO = 1: I/O port information present  
T = 0: No timing information present  
P = 1: V only information  
CC  
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
86h  
27h  
R
DI PI AI SI HV LV NV Nominal voltage only follows  
Power parameters  
for V  
CC  
R: Reserved  
DI: Powerdown current information  
PI: Peak current information  
AI: Average current information  
SI: Static current information  
HV: Maximum voltage information  
LV: Minimum voltage information  
NV: Nominal voltage information  
88h  
8Ah  
8Ch  
8Eh  
55h  
4Dh  
5Dh  
75h  
X
X
X
X
Mantissa  
Mantissa  
Mantissa  
Mantissa  
Exponent  
Exponent  
Exponent  
Exponent  
Nominal voltage = 5V  
V
V
V
nominal value  
minimum value  
maximum value  
CC  
CC  
CC  
V
V
nominal 4.5V  
nominal 5.5V  
CC  
CC  
Maximum average current over 10ms is Maximum average  
80mA  
current  
90h  
92h  
64h  
F0h  
R
S
S
E
L
I
O
V
AddrLine  
S = 1: 16-bit hosts supported  
E = 1: 8-bit hosts supported  
IO AddrLine: 4 lines decoded  
I/O space  
description field  
TPCE_IO  
P
M
B
I
N
S = 1: Share logic active  
P = 1: Pulse mode IRQ supported  
L = 1: Level mode IRQ supported  
M = 1: Bit mask of IRQs present  
V = 0: No vender unique IRQ  
B = 0: No bus error IRQ  
Interrupt request  
description structure  
TPCE_IR  
I = 0: No IO check IRQ  
N = 0: No NMI  
94h  
96h  
98h  
FFh IR IR IR IR IR IR IR IR SiliconSystems recommends the IRQ  
level to be routed 0 to 15  
Mask extension  
byte 1 TPCE_IR  
Q
7
Q
6
Q
5
Q
4
Q
3
Q
2
Q
1
Q
0
FFh IR IR IR IR IR IR IR IR SiliconSystems recommends routing to Mask extension  
any normal, maskable IRQ.  
byte 2 TPCE_IR  
Q
Q
Q
Q
Q
Q
Q
9
Q
8
-
15 14 13 12 11 10  
X
21h  
R
P
R
O
A
T
X = 0: No more miscellaneous fields Miscellaneous  
R: Reserved  
P = 1: Powerdown supported  
RO = 0: Not read only mode  
A = 0: Audio not supported  
T = 0: Single drive  
features field  
TPCE_MI  
9Ah  
9Ch  
9Eh  
1Bh  
06h  
01h  
CISTPL__TABLE_ENTRY  
TPL_LINK  
Configuration table entry tuple  
Link length is 6 bytes  
Tuple code  
Link to next tuple  
I
D
Configuration Index  
Contiguous I/O mapped ATA registers  
configuration  
Configuration table  
index  
Byte TPCE_INDX  
I = 0: No Interface byte  
D = 0: No Default entry  
Configuration index = 1  
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FEBRUARY 2, 2009  
ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
A0h  
01h  
M
MS IR IO  
T
P
-
M = 0: No miscellaneous information Feature selection  
MS = 00: No memory space  
information  
byte TPCE_FS  
IR = 0: No interrupt information  
present  
IO = 0: No I/O port information  
present  
T = 0: No timing information present  
P = 1: V only information  
CC  
A2h  
21h  
R
DI PI AI SI HV LV NV Nominal voltage only follows  
Power parameters  
for V  
CC  
R: Reserved  
DI: Powerdown current information  
PI: Peak current information  
AI: Average current information  
SI: Static current information  
HV: Maximum voltage information  
LV: Minimum voltage information  
NV: Nominal voltage information  
A4h  
B5h  
X
Mantissa  
Exponent  
Nominal voltage = 3.0V  
+0.3V  
V
nominal value  
CC  
A6h  
A8h  
1Eh  
4Dh  
X
X
Mantissa  
Mantissa  
Exponent  
Exponent  
Extension byte  
Maximum average current over 10ms is Maximum average  
45mA  
current  
AAh  
ACh  
AEh  
1Bh  
12h  
C2h  
CISTPL_TABLE_ENTRY  
TPL_LINK  
Configuration table entry tuple  
Link length is 18 bytes  
Extension byte  
Link to next tuple  
I
D
Configuration Index  
ATA primary I/O mapped configuration Configuration table  
index byte  
I = 1: Interface byte follows  
D = 1: default entry follows  
Configuration index = 2  
TPCE_INDX  
B0h  
B2h  
41h  
99h  
W
R
P
B
Interface Type  
W = 0: Wait not used  
R = 1: Ready active  
P = 0: WP not used  
B = 0: BVS1 and BVD2 not used  
IF type = 1: I/O interface  
Interface description  
field TPCE_IF  
M
MS IR IO  
T
P
-
M = 1: Miscellaneous information  
present  
Feature selection  
byte TPCE_FS  
MS = 00: No memory space  
information  
IR = 1: Interrupt information present  
IO = 1: I/O port information present  
T = 0: No timing information present  
P = 1: V only information  
CC  
B4h  
27h  
R
DI PI AI SI HV LV NV Nominal voltage only follows  
Power parameters  
for V  
CC  
R: Reserved  
DI: Powerdown current information  
PI: Peak current information  
AI: Average current information  
SI: Static current information  
HV: Maximum voltage information  
LV: Minimum voltage information  
NV: Nominal voltage information  
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3600C-04DSR  
PAGE 30  
FEBRUARY 2, 2009  
ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
Nominal voltage = 5V  
CIS Function  
B6h  
B8h  
BAh  
BCh  
55h  
4Dh  
5Dh  
75h  
X
X
X
X
Mantissa  
Mantissa  
Mantissa  
Mantissa  
Exponent  
Exponent  
Exponent  
Exponent  
V
V
V
nominal value  
minimum value  
maximum value  
CC  
CC  
CC  
V
V
nominal 4.5V  
nominal 5.5V  
CC  
CC  
Maximum average current over 10ms is Maximum average  
80mA  
current  
BEh  
EAh  
R
S
E
I
O
AddrLine  
R = 1: Range follows  
I/O space  
description field  
TPCE_IO  
S = 1: 16-bit hosts supported  
E = 1: 8-bit hosts supported  
IO AddrLines: 10 lines decoded  
C0h  
C2h  
61h LS AS  
N Range  
LS = 1: Size of lengths is 1 byte  
AS = 2: Size of address is 2 bytes  
N Range = 1: Address Range-1  
I/O range format  
description  
F0h  
First I/0 Base Address  
First I/O base address (LSB)  
First I/O range  
address  
C4h  
C6h  
01h  
07h  
First I/0 Base Address  
First I/0 Base Address  
First I/O base address (MSB)  
First I/O length -1  
-
First I/O range  
length  
C8h  
F6h  
Second I/O Base Address  
Second I/O base address (LSB)  
Second I/O range  
address  
CAh  
CCh  
03h  
01h  
Second I/O Base Address  
Second I/O Range Length  
Second I/O base address (MSB)  
Second I/O length -1  
Second I/O range  
length  
CEh  
EEh  
S
X
P
L
M
IRQ  
Level  
S = 1: Share logic active  
Interrupt request  
description structure  
TPCE_IR  
P = 1: Pulse mode IRQ supported  
L = 1: Level mode IRQ supported  
M = 0: Bit mask of IRQs present —  
IRQ level is IRQ14  
D0h  
21h  
R
P
R
O
A
T
-
X = 0: No more miscellaneous fields Miscellaneous  
R: Reserved  
P = 1: Powerdown supported  
RO = 0: Not read only mode  
A = 0: Audio not supported  
T = 0: Single drive  
features field  
TPCE_MI  
D2h  
D4h  
D6h  
1Bh  
06h  
02h  
CISTPL_TABLE_ENTRY  
TPL_LINK  
Configuration table entry tuple  
Link length is 6 bytes  
Tuple code  
Link to next tuple  
I
I
D
Configuration Index  
ATA primary I/O mapped configuration Configuration table  
index byte  
I = 0: No Interface byte  
D = 0: No Default entry  
Configuration index = 2  
TPCE_INDX  
D8h  
01h  
D
Configuration Index  
Contiguous I/O mapped ATA registers  
configuration  
Configuration table  
index byte  
TPCE_INDX  
I = 0: No interface byte  
D = 0: No default entry  
Configuration index = 1  
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3600C-04DSR  
PAGE 31  
FEBRUARY 2, 2009  
ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
DAh  
21h  
M
MS IR IO  
T
P
-
M = 0: No miscellaneous information Feature selection  
MS = 00: No memory space  
information  
byte TPCE_FS  
IR = 0: No interrupt information  
present  
IO = 0: No I/O port information  
present  
T = 0: No timing information present  
P = 1: V only information  
CC  
DCh  
B5h  
R
DI PI AI SI HV LV NV Nominal voltage only follows  
Power parameters  
for V  
CC  
R: Reserved  
DI: Powerdown current information  
PI: Peak current information  
AI: Average current information  
SI: Static current information  
HV: Maximum voltage information  
LV: Minimum voltage information  
NV: Nominal voltage information  
DEh  
1Eh  
X
Mantissa  
Exponent  
Nominal voltage = 3.0V  
V
nominal value  
CC  
E0h  
E2h  
E4h  
E6h  
4Dh  
1Bh  
12h  
C3h  
Extension  
+0.3V  
Extension byte  
Tuple code  
CISTPL_TABLE_ENTRY  
TPL_LINK  
Configuration table entry tuple  
Link length is 18 bytes  
Link to next tuple  
M
MS IR IO  
T
P
-
M = 0: No miscellaneous information Feature selection  
MS = 00: No memory space  
information  
byte TPCE_FS  
IR = 0: No interrupt information  
present  
IO = 0: No I/O port information  
present  
T = 0: No timing information present  
P = 1: V only information  
CC  
E8h  
41h  
R
DI PI AI SI HV LV NV Nominal voltage only follows  
Power parameters  
for V  
CC  
R: Reserved  
DI: Powerdown current information  
PI: Peak current information  
AI: Average current information  
SI: Static current information  
HV: Maximum voltage information  
LV: Minimum voltage information  
NV: Nominal voltage information  
EAh  
99h  
M
MS IR IO  
T
P
-
M = 1: No miscellaneous information Feature selection  
MS = 00: No Memory space  
information  
byte TPCE_FS  
IR = 1: No interrupt information  
present  
IO = 1: No I/O port information  
present  
T = 0: No timing information present  
P = 01: V only information  
CC  
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FEBRUARY 2, 2009  
ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
ECh  
27h  
R
DI PI AI SI HV LV NV Nominal voltage only follows  
Power parameters  
for V  
CC  
R: Reserved  
DI: Powerdown current information  
PI: Peak current information  
AI: Average current information  
SI: Static current information  
HV: Maximum voltage information  
LV: Minimum voltage information  
NV: Nominal voltage information  
EEh  
F0h  
F2h  
F4h  
55h  
4Dh  
5Dh  
75h  
X
X
X
X
Mantissa  
Mantissa  
Mantissa  
Mantissa  
Exponent  
Exponent  
Exponent  
Exponent  
Nominal voltage = 5V  
V
V
V
nominal value  
minimum value  
maximum value  
CC  
CC  
CC  
V
V
nominal 4.5V  
nominal 5.5V  
CC  
CC  
Maximum average current over 10ms is Maximum average  
80mA  
current  
F6h  
EAh  
R
S
E
I
O
AddrLine  
R = 1: Range follows  
I/O space  
description field  
TPCE_IO  
S = 1: 16-bit hosts supported  
E = 1: 8-bit hosts supported  
IO AddrLines: 10 lines decoded  
F8h  
FAh  
61h LS AS  
N Range  
LS = 1: Size of lengths is 1 byte  
AS = 2: Size of address is 2 bytes  
N Range = 1: Address range -1  
I/O range format  
description  
70h  
-
First I/O base address (LSB)  
First I/O range  
address  
FCh  
FEh  
01h  
07h  
-
-
First I/O base address (MSB)  
First I/O length -1  
-
First I/O range  
length  
100h  
76h  
-
Second I/O base address (LSB)  
Second I/O range  
address  
102h  
104h  
03h  
01h  
-
-
Second I/O base address (MSB)  
Second I/O length  
-
Second I/O range  
length  
106h  
108h  
EEh  
21h  
S
X
P
R
L
M
R
IRQ  
Level  
S = 1: Share logic active  
P = 1: Pulse mode IRQ supported  
L = 1: Level mode IRQ supported  
M = 0: Bit mask of IRQs present — miscellaneous  
IRQ level is IRQ14  
Interrupt request  
description structure  
TPCE_IR  
features field  
TPCE_MI  
P
O
A
T
-
X = 0: No more miscellaneous fields -  
R: Reserved  
P = 1: Powerdown supported  
RO = 0: Not read only mode  
A = 0: Audio not supported  
T = 0: Single drive  
10Ah  
10Ch  
1Bh  
06h  
CISTPL_TABLE_ENTRY  
TPL_LINK  
Configuration table entry tuple  
Link length is 6 bytes  
Tuple code  
Link to next tuple  
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FEBRUARY 2, 2009  
ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
10Eh  
03h  
I
D
Configuration Index  
ATA primary I/O mapped configuration Configuration table  
index byte  
I = 0: No interface byte  
D = 0: No default entry  
Configuration index = 2  
TPCE_INDX  
110h  
01h  
M
MS IR IO  
T
P
-
M = 0: No miscellaneous information Feature selection  
MS = 00: No memory space  
information  
byte TPCE_FS  
IR = 0: No interrupt information  
present  
IO = 0: No I/O port information  
present  
T = 0: No timing information present  
P = 1: V only information  
CC  
112h  
21h  
R
DI PI AI SI HV LV NV Nominal voltage only follows  
Power parameters  
for V  
CC  
R: Reserved  
DI: Powerdown current information  
PI: Peak current information  
AI: Average current information  
SI: Static current information  
HV: Maximum voltage information  
LV: Minimum voltage information  
NV: Nominal voltage information  
114h  
B5h  
X
X
Mantissa  
Extension  
Mantissa  
Exponent  
Nominal voltage = 3.0V  
+0.3V  
V
nominal value  
CC  
116h  
118h  
1Eh  
4Dh  
Extension byte  
Exponent  
Maximum average current over 10ms is Maximum average  
45mA  
current  
11Ah  
11Ch  
11Eh  
1Bh  
04h  
07h  
CISTPL_MANFID  
Manufacturer’s ID code  
Link length is 4 bytes  
Tuple code  
Link to next tuple  
TPCE_INDX  
TPL_LINK  
I
D
Configuration Index  
AT fixed disk secondary I/O 3.3V  
configuration  
120h  
00h  
M
MS IR IO  
T
P
-
P: Power information type  
TPCL_FS  
122h  
124h  
126h  
128h  
12Ah  
12Ch  
12Eh  
130h  
132h  
134h  
136h  
138h  
13Ah  
28h  
D3h  
14h  
00h  
15h  
1Ah  
04h  
01h  
53h  
49h  
4Ch  
49h  
43h  
-
Manufacturer code for SiliconDrive CF Reserved  
Manufacturer code for SiliconDrive CF Reserved  
-
CISTPL_NO_LINK  
No link control tuple  
Tuple code  
-
Link is 0 bytes  
Link to next tuple  
CISTPL_VERS_1  
Level 1 version  
Tuple code  
TPL_LINK  
Link length is 26h bytes  
Link to next tuple  
TPPLV1_MAJOR  
PC Card 2.0/JEIDA4.1  
END marker  
TPPLV1_MINOR  
PC Card 2.0/JEIDA4.1  
Tuple code  
-
-
-
-
-
S
I
Information string  
-
-
-
-
L
I
C
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FEBRUARY 2, 2009  
ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 21: Card Information Structure (Continued)  
Attribute  
Offset  
Data  
7
6
5
4
3
2
1
0
Description of Contents  
CIS Function  
13Ch  
13Eh  
140h  
142h  
144h  
146h  
4Fh  
4Eh  
53h  
59h  
53h  
54h  
45h  
4Dh  
53h  
00h  
56h  
45h  
52h  
32h  
2Eh  
30h  
30h  
00h  
FFh  
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
O
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
N
S
Y
S
T
E
14Ah  
14Ch  
14Eh  
150h  
152h  
154h  
156h  
158h  
15Ah  
15Ch  
M
S
Space  
V
E
R
2
-
0
0
-
160h  
-
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
CONFIGURATION OPTION REGISTER (200H)  
The Configuration Option register is used to configure the SiliconDrive CF,  
define the address decoding, and initiate the software RESET sequence.  
Table 22: Configuration Option Register (200h)  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Read/  
Write  
SRESET LevIREQ  
Configuration Index  
Default  
Value  
0
0
0
0
0
0
0
0
Bit(s)  
Description  
SRESET  
When set, this bit initiates a software-reset sequence, which  
is equivalent to a power-on reset or hardware reset.  
LevlREQ  
IREQ# interrupt signal level mode select:  
• Logic 0 = Pulse mode  
• Logic 1 = Level mode  
Configuration • Memory-mapped mode  
000000B  
000001B  
000010B  
000011B  
Index  
• Independent I/O mode  
• Primary mode  
• Secondary mode  
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
CONFIGURATION AND STATUS REGISTER (202H)  
The Configuration and Status Register (CSR) informs the host of any status  
changes with regard to power-down.  
Table 23: Configuration and Status Register (202h)  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Read  
Write  
Changed SigChg IOis8  
Changed SigChg IOis8  
0
0
0
0
0
0
PwrDn Int  
PwrDn Int  
0
0
0
Default  
Value  
0
0
0
0
0
Bit(s)  
Description  
Changed  
Indicates that either CREADY (D5) or CWPort (D4) of the Pin  
Replacement register is set. Additionally, this bit changes state  
as the Powerdown (D2) bit changes.  
SigChg  
Iois8  
Outputs the inverse state of the Changed bit to the hardware  
interface signal STSCHG# at the card interface.  
Informs the host of the valid data bus width for the operations in  
progress:  
• 0 = 16-bit data transfer  
• 1 = 8-bit data transfer  
PwrDwn  
Indicates the state of the Card, which is either operating -0 or  
powerdown mode 1. During powerdown mode, no commands  
are accepted. Additionally, the host may not initiate a  
powerdown request when the card is busy via the Status  
register or the Hardware RDY/BSY pin.  
Int  
Indicates the inverse of the IREQ# status signal.  
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
PIN PLACEMENT REGISTER (204H)  
Table 24: Pin Placement Register (204h)  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
CBVD1 CBVD2 CRDY CWProt RBVD1 RBVD2 RRDY RWProt  
Read/  
Write  
Default  
Value  
0
0
0
0
1
1
0
0
Bit(s)  
Description  
CRDY  
CWProt  
RRDY  
Indicates a bit change in the RRDY (D1) bit.  
Indicates a bit change in the RWProt (D0) bit.  
When set:  
• High 1 informs the host that the card is ready  
• Low 0 state indicates the card is busy  
RWProt  
Indicates Write Protect is enabled when set to 1, and disabled  
when 0.  
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ATTRIBUTE MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
SOCKET AND COPY REGISTER (206H)  
Table 25: Socket and Copy Register (206h)  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Read/Write  
RFU  
0
Copy Number  
0
Socket Number  
Default Value  
0
0
0
0
0
0
Bit(s)  
Description  
Reserved for future use.  
Indicates the card number. Allows the host to differentiate  
RFU  
Copy  
Number  
between identical cards by writing to the bit of the card that is  
being accessed. This value is compared to the DRV bit in the  
ATA Drive/Head register.  
• Card 0: 000B = (D6, D5, D4) (default)  
• Card 1: 001B = (D6, D5, D4) (alternate)  
Socket  
Number  
The host writes the socket number that identifies the inserted  
card.  
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COMMON MEMORY DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
COMMON MEMORY DESCRIPTION AND OPERATION  
Common memory space can be accessed when the SiliconDrive is configured  
in memory-mapped mode.  
COMMON MEMORY READ OPERATIONS  
Common memory read operations are issued by asserting CE1#, CE2#, or  
both, and OE# low, REG#, and WE# must be inactive.  
Table 26: Common Memory Read Operations  
Function Mode REG# CE1# CE2# A0 OE#  
WE#  
D[15:8] D[7:0]  
Standby  
X
H
H
H
H
H
L
H
H
H
L
X
L
X
L
L
L
L
X
H
H
H
H
High-Z High-Z  
High-Z Even  
High-Z Odd  
Byte Access  
L
H
X
X
Word Access  
L
Odd  
Odd  
Even  
Odd Byte Only  
Access  
H
L
High-Z  
COMMON MEMORY WRITE OPERATIONS  
Common memory write operations are issued by asserting CE1#, CE2#, or  
both, and WE# low, REG#, and OE# must be inactive.  
Table 27: Common Memory Write Operations  
Function Mode REG# CE1# CE2# A0 OE#  
WE#  
D[15:8] D[7:0]  
Standby  
X
H
H
H
H
H
L
H
H
H
L
X
L
X
H
H
H
H
X
L
L
L
L
High-Z High-Z  
High-Z Even  
High-Z Odd  
Byte Access  
L
H
X
X
Word Access  
L
Odd  
Odd  
Even  
Odd Byte Only  
Access  
H
L
High-Z  
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I/O SPACE DESCRIPTION AND OPERATION  
SSD-CXXX(I)-3600 DATA SHEET  
I/O SPACE DESCRIPTION AND OPERATION  
I/O SPACE READ OPERATIONS  
Table 28: I/O Space Read Operations  
Function Mode REG# CE1# CE2# A0 IORD# IOWR# D[15:8] D[7:0]  
Standby  
X
L
L
L
H
L
H
L
H
H
H
L
X
L
X
L
L
L
L
L
X
H
H
H
H
H
High-Z High-Z  
High-Z Even  
High-Z Odd  
Byte Access  
L
H
L
Word Access  
I/O Inhibit  
L
Odd  
High-Z High-Z  
Odd High-Z  
Even  
X
H
X
L
X
X
Odd Byte Only  
Access  
I/O SPACE WRITE OPERATIONS  
Table 29: I/O Space Write Operations  
Function Mode REG# CE1# CE2# A0 IORD# IOWR# D[15:8] D[7:0]  
Standby  
X
L
L
L
H
L
H
L
H
H
H
L
X
L
X
H
H
H
H
H
X
L
L
L
L
L
X
X
Byte Access  
X
Even  
Odd  
Even  
X
L
H
L
X
Word Access  
I/O Inhibit  
L
Odd  
X
X
H
X
L
X
X
Odd Byte Only  
Access  
Odd  
X
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ATA AND TRUE IDE REGISTER DECODING  
SSD-CXXX(I)-3600 DATA SHEET  
ATA AND TRUE IDE REGISTER DECODING  
SiliconDrive can be configured as either a a memory-mapped or an an I/O  
devices. As noted earlier, communication to and from the drive is  
accomplished using the ATA Command Block.  
MEMORY-MAPPED REGISTER DECODING  
In memory-mapped mode, the SiliconDrive registers are accessed via  
standard memory references (i.e., OE# and WE#). The ATA registers are  
mapped to common memory space in a 2KB window starting at address 0.  
Table 30: Memory-Mapped Register Decoding  
Reg# Offset A10 A9:A4 A3 A2 A1 A0 OE# = L  
WE# = L  
1
0
0
X
0
0
0
0
Even Data  
Read  
Even Data  
Write  
1
1
1
1
2
3
0
0
0
X
X
X
0
0
0
0
0
0
0
1
1
1
0
1
Error  
Feature  
Sector Count Sector Count  
Sector  
Sector  
Number  
Number  
1
1
1
1
1
4
5
6
7
8
0
0
0
0
0
X
X
X
X
X
0
0
0
0
1
1
1
1
1
0
0
0
1
1
0
0
1
0
1
0
Cylinder Low Cylinder Low  
Cylinder High Cylinder High  
Drive/Head  
Status  
Drive/Head  
Command  
Duplicate  
Even Data  
Read  
Duplicate  
Even Data  
Write  
1
1
1
9
0
0
0
X
X
X
1
1
1
0
1
1
0
0
1
1
1
0
Duplicate Odd Duplicate Odd  
Data Read  
Data Write  
D
E
Duplicate  
Error  
Duplicate  
Feature  
Alternate  
Status  
Device Control  
1
1
F
X
0
1
X
X
1
1
1
1
0
Drive Address Reserved  
X
X
X
Even Data  
Read  
Even Data  
Write  
1
X
1
X
X
X
X
1
Odd Data  
Read  
Odd Data  
Write  
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ATA AND TRUE IDE REGISTER DECODING  
SSD-CXXX(I)-3600 DATA SHEET  
INDEPENDENT I/O MODE REGISTER DECODING  
Independent I/O mode or contiguous I/O mode requires the host to decode a  
continuous block of 16 I/O registers to select the SiliconDrive.  
Table 31: Independent I/O Mode Register Decoding  
Reg# Offset A10 A9:A4 A3 A2 A1 A0 OE# = L  
WE# = L  
0
0
X
X
0
0
0
0
Even Data  
Read  
Even Data  
Write  
0
0
0
1
2
3
X
X
X
X
X
X
0
0
0
0
0
0
0
1
1
1
0
1
Error  
Feature  
Sector Count Sector Count  
Sector  
Sector  
Number  
Number  
0
0
0
0
0
4
5
6
7
8
X
X
X
X
X
X
X
X
X
X
0
0
0
0
1
1
1
1
1
0
0
0
1
1
0
0
1
0
1
0
Cylinder Low Cylinder Low  
Cylinder High Cylinder High  
Drive/Head  
Status  
Drive/Head  
Command  
Duplicate  
Even Data  
Read  
Duplicate  
Even Data  
Write  
0
0
0
0
9
X
X
X
X
X
X
X
X
1
1
1
1
0
1
1
1
0
0
1
1
1
1
0
1
Duplicate Odd Duplicate Odd  
Data Read Data Write  
D
E
F
Duplicate Error Duplicate  
Feature  
Alternate  
Status  
Device Control  
Drive Address Reserved  
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ATA AND TRUE IDE REGISTER DECODING  
SSD-CXXX(I)-3600 DATA SHEET  
PRIMARY AND SECONDARY I/O MAPPED REGISTER DECODING  
Table 32: Primary and Secondary I/O Mapped Register Decoding  
A9:A4 A9:A4  
Primary Secondary  
Reg# A10  
A3 A2 A1 A0 IORD# = L IOWR# = L  
0
X
1Fxh  
17xh  
0
0
0
0
Even Data  
Read  
Even Data  
Write  
0
0
X
X
1Fxh  
1Fxh  
17xh  
17xh  
0
0
0
0
0
1
1
0
Error  
Feature  
Sector  
Count  
Sector  
Count  
0
0
0
X
X
X
1Fxh  
1Fxh  
1Fxh  
17xh  
17xh  
17xh  
0
0
0
0
1
1
1
0
0
1
0
1
Sector  
Number  
Sector  
Number  
Cylinder  
Low  
Cylinder  
Low  
Cylinder  
High  
Cylinder  
High  
0
0
0
X
X
X
1Fxh  
1Fxh  
3Fxh  
17xh  
17xh  
37xh  
0
0
0
1
1
1
1
1
1
0
1
0
Drive/Head Drive/Head  
Status  
Command  
Alternate  
Status  
Device  
Control  
0
X
3Fxh  
37xh  
0
1
1
1
Drive  
Reserved  
Address  
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ATA AND TRUE IDE REGISTER DECODING  
TASK FILE REGISTER SPECIFICATION  
SSD-CXXX(I)-3600 DATA SHEET  
The Task File registers are used for reading and writing the storage data in the  
SiliconDrive. The decoded addresses are as shown in the following table.  
Table 33: Task File Register Specification  
CS0# CS1# DA02 DA01 DA00 DIOR# = L  
DIOW# = L  
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
0
0
0
0
0
0
0
0
1
1
1
1
X
X
0
1
1
1
0
0
1
1
0
0
1
1
X
X
X
0
1
1
0
1
0
1
0
1
0
1
X
X
X
X
0
1
Data  
Data  
Error  
Feature  
Sector Count  
Sector Count  
Sector Number Sector Number  
Cylinder Low  
Cylinder High  
Drive/Head  
Status  
Cylinder Low  
Cylinder High  
Drive/Head  
Command  
Invalid  
Invalid  
High-Z  
Not Used  
High-Z  
Not Used  
High-Z  
Not Used  
Alternate Status Device Control  
Device Address Not Used  
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
ATA REGISTERS  
DATA REGISTER  
The Data register is a 16-bit register used to transfer data blocks between the  
host and drive buffers. The register may set to 8-bit mode by using the Set  
Features Command defined in "Seek — 7Xh" on page 77.  
ERROR REGISTER  
The Error register contains the error status, if any, generated from the last  
executed ATA command. The contents are qualified by the ERR bit being set  
Table 34: Error Register  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Read  
BBK UNC  
MC  
0
IDNF MCR ABRT TKNOF AMNF  
Default  
Value  
0
0
0
0
0
0
0
Bit(s) Description  
7
6
Bad Block Detected (BBK). Set when a bad block is detected.  
Uncorrectable Data Error (UNC). Set when an uncorrectable error  
is encountered.  
5
4
3
2
Media Changed (MC). Set to 0.  
ID Not Found (IDNF). Set when the sector ID is not found.  
MCR (Media Change Request). Set to 0.  
Aborted Command (ABRT). Set when a command is aborted due  
to a drive error.  
1
0
Track 0 Not Found (TKONF). Set when the execute drive  
diagnostic command is executed.  
Address Mark Not Found (AMNF). Set in the case of a general  
error.  
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
FEATURE REGISTER  
The Feature register is command-specific and used to enable and disable  
interface features. This register supports only either odd or even byte data  
transfers.  
Table 35: Feature Register  
Operation  
D
D
D
D
D
D
D
D
0
7
6
5
4
3
2
1
Read/Write  
Feature Byte  
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
SECTOR COUNT REGISTER  
The Sector Count register is used to read or write the sector count of the data  
for which an ATA transfer has been made.  
Table 36: Sector Count Register  
D
D
D
D
D
D
D
1
Operation  
D
7
6
5
4
3
2
0
Read/Write  
Default Value  
Sector Count  
0
0
0
0
0
0
0
1
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
SECTOR NUMBER REGISTER  
The Sector Number register is set by the host to specify the starting sector  
number associated with the next ATA command to be executed. Following a  
qualified ATA command sequence, the device sets the register value to the  
last sector read or written as a result of the previous AT command.  
When Logical Block Addressing (LBA) mode is implemented and the host  
issues a command, the contents of the register describe the Logical Block  
Number bits A[7:0]. Following an ATA command, the device loads the register  
with the LBA block number resulting from the last ATA command.  
Table 37: Sector Number Register  
D
D
D
D
D
D
D
1
Operation  
D
7
6
5
4
3
2
0
Read/Write  
Sector Number (CHS Addressing)  
Logical Block Number bits A07-A00 (LBA Addressing)  
Default Value  
0
0
0
0
0
0
0
1
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
CYLINDER LOW REGISTER  
The Cylinder Low register is set by the host to specify the cylinder number low  
byte. Following an ATA command, the content of the register is written by the  
device, identifying the cylinder number low byte.  
In LBA mode, the 8-bit register maintains the contents of the Logical Block  
number address bits A15:A08.  
Table 38: Cylinder Low Register  
D
D
D
D
D
D
D
1
Operation  
D
7
6
5
4
3
2
0
Read/Write  
Cylinder Number Low Byte (CHS Addressing)  
Logical Block Number bits A15-A08 (LBA Addressing)  
Default Value  
0
0
0
0
0
0
0
0
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
CYLINDER HIGH REGISTER  
The Cylinder High register is set by the host to specify the cylinder number  
high byte. Following an ATA command, the content of the register is set  
internally by the device, identifying the cylinder number high byte.  
In LBA mode, the 8-bit register maintains the contents of the Logical Block  
number address bits A23:A16.  
Table 39: Cylinder High Register  
D
D
D
D
D
D
D
1
Operation  
D
7
6
5
4
3
2
0
Read/Write  
Cylinder Number Low Byte (CHS Addressing)  
Logical Block Number bits A23-A16 (LBA Addressing)  
Default Value  
0
0
0
0
0
0
0
0
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
DRIVE/HEAD REGISTER  
The Drive/Head register is used by the host and the device to select the type  
of addressing (CHS or LBA), the drive letter, and either bits 3-0 of the head  
number in CHS mode or logical block number bits 27-24 in LBA mode.  
Table 40: Drive/Head Register  
Operation  
D
D
D
D
D
D
D
D
0
7
6
5
4
3
2
1
Read/Write  
1
LBA  
1
DRV  
HS3  
HS2  
HS1  
HS0  
LBA24  
LBA27 LBA26 LBA25  
Default  
Value  
1
0
1
0
0
0
0
0
The Drive/Head register is used by the host to specify one of a pair of ATA  
drives present in the platform.  
Bit(s)  
Description  
6
4
LBA. Selects between CHS (0) and LBA (1) addressing mode.  
Drive Address (DRV). Indicates the drive number selected by the  
host, either 0 or 1.  
3-0  
HS3 to 0. Indicates bits 3-0 of the head number in CHS addressing  
mode or LBA bits 27-24 in LBA mode.  
• CHS to LBA conversion: LBA = (C x HpC + H) x SpH + S -1  
• LBA to CHS conversion:  
C = LBA/(HpC x SpH)  
H = (LBA/SpH) mod (HpC)  
S = (LBA mod(SpH)) + 1  
...where:  
C is the cylinder number  
H is the head number  
S is the sector count  
HpC is the head count per cylinder count  
SpH is the sector count per head count (track)  
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
STATUS REGISTER  
The Status register provides the device’s current status to the host. The status  
register is an 8-bit read-only register. When the contents of the register are  
read by the host, the IREQ# bit is cleared.  
Table 41: Status Register  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Read/Write  
Default Value  
BSY DRDY DWF DSC DRQ CORR IDX ERR  
0
0
0
0
0
0
0
0
Bit(s) Description  
7
Busy (BSY). Set when the drive is busy and unable to process any  
new ATA commands.  
6
Data Ready (DRDY). Set when the device is ready to accept ATA  
commands from the host.  
5
4
Drive Write Fault (DWF). Always set to 0.  
Drive Seek Complete (DSC). Set when the drive heads have been  
positioned over a specific track.  
3
Data Request (DRQ). Set when a device is ready to transfer a word  
or byte of data to or from the host and the device.  
2
1
0
Corrected Data (CORR). Always set to 0.  
Index (IDX). Always set to 0.  
Error (ERR). Set when an error occurs during the previous ATA  
command.  
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
COMMAND REGISTER  
The Command register specifies the ATA command code being issued to the  
drive by the host. Execution of the command begins immediately following the  
issuance of the command register code by the host.  
Table 42: Command Register  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Read/Write  
ATA Command Code  
supported ATA commands.  
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
ALTERNATE STATUS REGISTER  
The Alternate Status register is a read-only register indicating the status of the  
device, following the previous ATA command. See "Status Register" on page  
53 for specific details.  
Table 43: Alternate Status Register  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Read/Write  
Default Value  
BSY DRDY DWF DSC DRQ CORR IDX ERR  
0
0
0
0
0
0
0
0
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
DEVICE CONTROL REGISTER  
The Device Control register is used to control the interrupt request and issue  
ATA software resets.  
Table 44: Device Control Register  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Write  
-
-
-
-
1
SRST nIEN  
0
Bit(s)  
Description  
7-4  
3
Reserved bits.  
Always set to 1.  
Software Reset (SRST). When set, resets the ATA software.  
2
1
Interrupt Enable (nIEN). When set, device interrupts are disabled.  
There is no function in the memory-mapped mode.  
0
Always set to 0.  
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ATA REGISTERS  
SSD-CXXX(I)-3600 DATA SHEET  
DEVICE ADDRESS REGISTER  
The Device Address register is used to maintain compatibility with ATA disk  
drive interfaces.  
Table 45: Device Address Register  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Read/Write  
Default Value  
-
nWTG nHS3 nHS2 nHS1 nHS0 nDS1 nDS0  
0
0
1
1
1
1
1
0
Bit(s) Description  
7
Reserved bit.  
6
Write Gate (nWTG). Low when a write to the device is in process.  
5-2  
nHS3 to nHS0. The negated binary address of the currently selected  
head.  
1
0
nDS1. Low when drive 1 is selected and active.  
nDS0. Low when drive 0 is selected and active.  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
ATA COMMAND BLOCK AND SET DESCRIPTION  
In accordance with the ANSI ATA Specification, the device implements seven  
registers that are used to transfer instructions to the device by the host. These  
commands follow the ANSI standard ATA protocol. A description of the ATA  
command block is provided in the following table.  
Table 46: ATA Command Block and Set Description  
D
D
D
D
D
D
D
D
0
Operation  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
1
LBA  
1
Drive  
X
X
ATA COMMAND SET  
Table 47: ATA Command Set  
Registers Used  
FR SC SN CY DH LBA  
Command  
Code  
Class Command Name  
1
1
Check Power Mode  
98h, E5h  
90h  
-
-
-
-
-
-
-
-
D
D
-
-
Execute Drive  
Diagnostics  
1
2
1
1
1
1
Erase Sector  
Format Track  
Identify Drive  
Idle  
C0h  
-
-
-
-
-
-
Y
Y
-
Y
-
Y
Y
-
Y
Y
D
D
D
Y
Y
Y
-
50h  
ECh  
-
97h, E3h  
95h, E1h  
91h  
Y
-
-
-
Idle Immediate  
-
-
-
Initialize Drive  
Parameters  
Y
-
-
-
1
1
1
Read Buffer  
Read DMA*  
Read Multiple  
E4h  
C8h  
C4h  
-
-
-
-
-
-
D
Y
Y
-
Y
Y
Y
Y
Y
Y
Y
Y
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 47: ATA Command Set (Continued)  
Registers Used  
Command  
Code  
Class Command Name  
FR SC SN CY DH LBA  
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
2
3
3
Read Long Sector  
Read Sector(s)  
22h, 23h  
20h, 21h  
-
-
-
-
-
-
Y
-
-
-
-
-
-
-
-
-
-
-
-
Y
Y
Y
-
Y
Y
Y
-
Y
Y
Y
Y
D
Y
D
D
D
D
D
Y
Y
D
Y
Y
Y
Y
Y
Y
Y
-
-
Read Verify Sector(s) 40h, 41h  
Y
-
Recalibrate  
1Xh  
Request Sense  
Seek  
03h  
-
-
-
-
7Xh  
-
Y
-
Y
-
Y
-
Set Features  
Set Multiple Mode  
Set Sleep Mode  
Standby  
EFh  
C6h  
Y
-
-
-
-
99h, E6h  
96h, E2h  
94h, E0h  
87h  
-
-
-
-
-
-
-
Standby Immediate  
Translate Sector  
Wear Level  
-
-
-
-
Y
-
Y
-
Y
-
Y
-
F5h  
Write Buffer  
E8h  
-
-
-
-
Write DMA*  
CAh  
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Write Long Sector  
Write Multiple  
32h, 33h  
C5h  
Y
Y
Write Multiple w/o  
Erase  
CDh  
2
2
Write Sector(s)  
30h, 31h  
38h  
-
-
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Write Sector(s) w/o  
Erase  
3
Write Verify  
3Ch  
-
Y
Y
Y
Y
Y
* = This function does not apply to SiliconDrives that have DMA disabled.  
Notes:  
• CY = Cylinder  
• SC = Sector Count  
• DH = Drive/Head  
• SN = Sector Number  
• FR = Feature LBA — LBA bit of the Drive/Head register (D denotes that  
only the drive bit is used)  
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FEBRUARY 2, 2009  
ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Check Power Mode — 98h, E5h  
The Check Power Mode command verifies the device’s current power mode.  
When the device is configured for standby mode or is entering or exiting  
standby, the BSY bit is set, the Sector Count register set to 00h, and the BSY  
bit is cleared. In idle mode, BSY is set and the Sector Count register is set to  
FFh. The BSY bit is then cleared and an interrupt is issued.  
Table 48: Check Power Mode — 98h, E5h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
X
X
X
Drive  
98h or E5h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Executive Drive Diagnostic — 90h  
The Executive Drive Diagnostic performs an internal read write diagnostic test  
using (AA55h and 55AAh). If an error is detected in the read/write buffer, the  
Error register reports the appropriate diagnostic code.  
Table 49: Executive Drive Diagnostic — 90h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
X
X
X
Drive  
90h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Format Track — 50h  
The Format Track command formats the common solid-state memory array.  
Table 50: Format Track — 50h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
1
LBA  
1
Drive Head Number (LBA27-24)  
50h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Identify Drive — ECh  
Issued by the host, the Identify Drive command provides 256 bytes of drive  
attribute data (i.e., sector size, count, and so on) The identify drive data  
structure is detailed in the following table.  
Table 51: Identify Drive — ECh  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
X
X
X
Drive  
ECh  
X
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Identify Drive — Drive Attribute Data  
Table 52: Identify Drive — Drive Attribute Data  
Data Default Bytes Data Description  
Word  
Address  
0
044Ah (fixed  
ID bit) in IDE  
mode  
2
General configuration bit information  
• 15: Non-magnetic disk  
• 14: Formatting speed latency  
permissible gap needed  
• 13: Track Offset option supported  
• 12: Data Strobe Offset option supported  
848A  
(removable ID  
bit) inPCMCIA  
memory and I/  
O modes  
• 11: Over 0.5% rotational speed  
difference  
• 10: Disk transfer rate >10Mbps  
• 9: 10Mbps >= disk transfer rate >5Mbps  
• 8: 5Mbps >= disk transfer rate  
• 7: Removable cartridge drive  
• 6: Fixed drive  
• 5: Spindle Motor Control option  
executed  
• 4: Over 15μs changing head time  
• 3: Non-MFM encoding  
• 2: Soft sector allocation  
• 1: Hard sector allocation  
• 0: Reserved  
1
XXXXh  
0000h  
00XXh  
0000h  
XXXXh  
XXXXh  
XXXXh  
0000h  
XXXXh  
2
Number of cylinders  
2
2
Reserved  
3
2
Number of heads  
4
2
Number of unformatted bytes per track  
Number of unformatted bytes per sector  
Number of sectors per track  
Number of sectors per device  
Reserved  
5
2
6
2
7-8  
9
4
2
10-19  
20  
Serial number  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 52: Identify Drive — Drive Attribute Data (Continued)  
Word  
Address  
Data Default Bytes Data Description  
20  
0002h  
2
Buffer type  
• 0000h: Not specified  
• 0001h: A single-ported, single-sector  
buffer  
• 0002h: A dual-ported multisector buffer  
• 0003h: A dual-ported multisector buffer  
with a read caching  
21  
22  
0002h  
0004h  
2
2
Buffer size in 512-byte increments  
Number of ECC bytes passed on read/  
write long commands  
23-26  
27-46  
47  
XXXXh  
XXXXh  
0001h  
8
Firmware revision (eight ASCII characters)  
Model number (40 ASCII characters)  
40  
2
7-0: Maximum number of sectors that can  
be transferred with a Read/Write Multiple  
command per interrupt  
48  
49  
0000h  
0002h  
2
2
Double word (32 bit) not supported  
• 11: IORDY supported  
• 9: LBA supported  
• 8: DMA supported  
50  
51  
52  
53  
0000h  
0100h  
0000h  
0000h  
2
2
2
2
Reserved  
15-8: PIO data transfer cycle timing  
15-8: DMA data transfer cycle timing  
• 1: Words 64-70 are valid  
• 0: Words 54-58 are valid  
54  
XXXXh  
XXXXh  
XXXXh  
XXXXh  
010Xh  
2
2
2
4
2
Current number of cylinders  
Current number of heads  
Current sectors per track  
Current capacity in sectors  
55  
56  
57-58  
59  
7-0: Current sectors can be transferred  
with a Read/Write Multiple command per  
interrupt  
60-61  
62  
XXXXh  
0000h  
4
2
Total number of sectors addressable in  
LBA mode  
Single-word DMA modes supported  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Table 52: Identify Drive — Drive Attribute Data (Continued)  
Word  
Address  
Data Default Bytes Data Description  
63  
64  
65  
0407h  
0003h  
0078h  
2
2
2
Multiword DMA modes supported  
PIO modes supported  
Minimum DMA transfer cycle time per  
word (ns)  
66  
0078h  
0078h  
0078h  
0000h  
2
2
2
Manufacturer’s recommended DMA  
transfer cycle time (ns)  
67  
Minimum PIO transfer cycle time without  
flow control (ns)  
68  
Minimum PIO transfer cycle time with  
IORDY flow controls (ns)  
69-127  
118  
64  
Reserved  
128-159 0000h  
160-255 0000h  
Vendor-unique  
Reserved  
192  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Idle — 97h, E3h  
When issued by the host, the device’s internal controller sets the BSY bit,  
enters the Idle mode, clears the BSY bit, and generates an interrupt. If the  
sector count is non-zero, it is interpreted as a timer count with each count  
being 5ms, and the automatic power-down mode is enabled. If the sector  
count is zero, the automatic power-down mode is disabled.  
Table 53: Idle — 97h, E3h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Timer Count (5ms increments)  
X
X
X
X
X
X
Drive  
X
97h or E3h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Idle Immediate — 95h, E1h  
When issued by the host, the device’s internal controller sets the BSY bit,  
enters Idle Mode, clears the BSY bit, and issues an interrupt. The interrupt is  
issued whether or not the Idle mode is fully entered.  
Table 54: Idle Immediate — 95h, E1h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
X
X
X
Drive  
95h or E1h  
X
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Initialize Drive Parameters — 91h  
Initialize Drive Parameters allows the host to set the sector counts per track  
and the head counts per cylinder to 1 Fixed. Upon issuance of the command,  
the device sets the BSY bit and associated parameters, clears the BSY bit,  
and issues an interrupt.  
Table 55: Initialize Drive Parameters — 91h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Sector Count (Number of Sectors)  
X
X
X
X
0
X
Drive  
Head Number  
(Number of Heads — 1)  
Command  
91h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Recalibrate — 1Xh  
The Recalibrate command sets the cylinder low and high, head number to 0h,  
and sector number to 1h in CHS mode. In LBA mode (i.e., LBA = 1), the sector  
number is set to 0h.  
Table 56: Recalibrate — 1Xh  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
1
LBA  
1
Drive  
1Xh  
X
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Read Buffer — E4h  
The Read Buffer command allows the host to read the contents of the sector  
buffer. When issued, the device sets the BSY bit and sets up the sector buffer  
data in preparation for the read operation. When the data is ready, the DRQ bit  
is set and the BSY bit in the Status register are set and cleared, respectively.  
Table 57: Read Buffer — E4h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
X
X
X
Drive  
E4h  
X
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Read DMA — C8h  
The Read DMA command allows the host to read data using the DMA transfer  
protocol.  
Note: This function does not apply to SiliconDrives that have DMA  
disabled.  
Table 58: Read DMA — C8h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
1
LBA  
1
Drive Head Number (LBA27-24)  
C8h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Read Multiple — C4h  
The Read Multiple command executes similarly to the Read Sector command,  
with the exception that interrupts are issued only when a block containing the  
counts of sectors defined by the Set Multiple command is transferred.  
Table 59: Read Multiple — C4h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
1
LBA  
1
Drive Head Number (LBA27-24)  
C4h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Read Sector — 20h, 21h  
The Read Sector command allows the host to read sectors 1 to 256 as  
specified in the Sector Count register. If the sector count is set to 0h, all 256  
sectors of data are made available. When the command code is issued and  
the first sector of data has been transferred to the buffer, the DRQ bit is set.  
The Read Sector command is terminated by writing the cylinder, head, and  
sector number of the last sector read in the task file. On error, the read  
operation is aborted in the errant sector.  
Table 60: Read Sector — 20h, 21h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
1
LBA  
1
Drive Head Number (LBA27-24)  
20h or 21h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Read Long Sector(s) — 22h, 23h  
The Read Long Sector(s) command operates similarly to the Read Sector(s)  
command, with the exception that it transfers requested data sectors and ECC  
data. The long instruction ECC byte transfer for Long commands is a byte  
transfer at a fixed length of 4 bytes.  
Table 61: Read Long Sector(s) — 22h, 23h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
1
LBA  
1
Drive Head Number (LBA27-24)  
22h or 23h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Read Verify Sector(s) — 40h, 41h  
The Read Verify Sector(s) command operates similarly to the Read Sector(s)  
command, with the exception that is does not set the DRQ bit and does not  
transfer data to the host. When the requested sectors are verified, the onboard  
controller clears the BSY bit and issues an interrupt.  
Table 62: Read Verify Sector(s) — 40h, 41h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
1
LBA  
1
Drive Head Number (LBA27-24)  
40h or 41h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Seek — 7Xh  
The Seek command seeks and picks up the head to the tracks specified in the  
task file. When the command is issued, the solid-state memory chips do not  
need to be formatted. After an appropriate amount of time, the DSC bit is set.  
Table 63: Seek — 7Xh  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
1
LBA  
1
Drive Head Number (LBA27-24)  
7Xh  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Set Features — EFh  
The Set Features command allows the host to configure the feature set of the  
device according to the attributes listed in Table 65.  
Table 64: Set Features — EFh  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
Feature  
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
X
X
X
X
X
X
X
Drive  
EFh  
X
Table 65: Set Features’ Attributes  
Operation  
Enable 8-bit data transfer  
Feature  
01h  
66h  
81h  
BBh  
CCh  
Disable reverting to power on defaults  
Disable 8-bit data transfer  
4 bytes of data apply on Read/Write Long commands  
Enable revert to power on defaults  
On power-up or following a hardware reset, the device is set to the default  
mode 81h.  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Set Multiple Mode — C6h  
The Set Multiple Mode command allows the host to access the drive via Read  
Multiple and Write Multiple ATA commands. Additionally, the command sets  
the block count (i.e., the number of sectors within the block) for the Read/Write  
Multiple command. The sector count per block is set in the Sector Count  
register.  
Table 66: Set Multiple Mode — C6h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
X
X
X
X
X
X
Drive  
C6h  
X
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Set Sleep Mode — 99h, E6h  
The Set Sleep Mode command allows the host to set the device in sleep  
mode. When the onboard controller transitions to sleep mode, it clears the  
BSY bit and issues an interrupt. The device interface then becomes inactive.  
Sleep mode can be exited by issuing either a hardware or software reset.  
Table 67: Set Sleep Mode — 99h, E6h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
X
X
X
Drive  
99h or E6h  
X
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Standby — 96h, E2h  
When the Standby command is issued by the host, it transitions the device into  
standby mode. If the Sector Count register is set to a value other than 0h, the  
Auto Powerdown function is enabled and the device returns to Idle mode.  
Table 68: Standby — 96h, E2h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Timer Count (5ms x Timer Count)  
X
X
X
X
X
X
Drive  
X
96h or E2h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Standby Immediate — 94h, E0h  
When the Standby Immediate command is issued by the host, it transitions the  
device into standby mode.  
Table 69: Standby Immediate — 94h, E0h  
D
D
D
D
D
D
D
D
7
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
X
X
X
Drive  
94h or E0h  
X
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Write Buffer — E8h  
The Write Buffer command allows the host to rewrite the contents of the  
512- byte data buffer with the wanted data.  
Table 70: Write Buffer — E8h  
D
D
D
D
D
D
D
D
7
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
X
X
X
Drive  
E8h  
X
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Write DMA — CAh  
The Write DMA command allows the host to write data using the DMA transfer  
protocol.  
Note: This function does not apply to SiliconDrives that have DMA  
disabled.  
Table 71: Write DMA — CAh  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low(LBA15-8)  
Cylinder High(LBA23-16)  
X
LBA  
X
Drive Head Number(LBA27-24)  
CAh  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Write Multiple — C5h  
The Write Multiple command operates in the same manner as the Write Sector  
command. When issued, the device sets the BSY bit within 400ns and  
generates an interrupt at the completion of a transferred block of sectors. The  
DRQ bit is set at the beginning of a block transfer.  
Table 72: Write Multiple — C5h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low(LBA15-8)  
Cylinder High(LBA23-16)  
X
LBA  
X
Drive Head Number(LBA27-24)  
C5h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Write Sector(s) — 30h, 31h  
The Write Sector(s) command writes from 1 to 256 sectors as specified in the  
Sector Count register. A sector count of 0 requests 256 sectors. When issued,  
the device sets the BSY bit within 400ns and generates an interrupt at the  
completion of a transferred block of sectors. The DRQ bit is set at the  
beginning of a block transfer.  
Table 73: Write Sector(s) — 30h, 31h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
X
LBA  
X
Drive Head Number (LBA27-24)  
30h or 31h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Write Long Sector(s) — 32h, 33h  
The Write Long Sector(s) command operates in the same manner as the Write  
Sector command — when issued, the device sets the BSY bit within 400ns  
and generates an interrupt at the completion of a transferred block of sectors.  
The DRQ bit is set at the beginning of a block transfer.  
Table 74: Write Long Sector(s) — 32h, 33h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
X
LBA  
X
Drive Head Number (LBA27-24)  
32h or 33h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Erase Sector(s) — C0h  
The Erase Sector(s) command is issued prior to the issuance of a Write  
Sector(s) or Write Multiple w/o Erase command.  
Table 75: Erase Sector(s) — C0h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
X
LBA  
X
Drive Head Number (LBA27-24)  
C0h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Request Sense — 03h  
The Request Sense command identifies the extended error codes generated  
by the preceding ATA command. The Request Sense command must be  
issued immediately following the detection of an error via the Error register.  
Table 76: Request Sense — 03h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
X
X
X
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
1
X
1
Drive  
03h  
X
The extended error codes are defined in the following table.  
Table 77: Extended Error Codes  
Extended Error Codes  
Description  
00h  
No error detected  
01h  
Self test is OK (no error)  
Miscellaneous error  
Invalid command  
09h  
20h  
21h  
Invalid address (requested head or sector invalid)  
Address overflow (address too large)  
Supply or generated voltage out of tolerance  
Uncorrectable ECC error  
2Fh  
35h, 36h  
11h  
18h  
Corrected ECC error  
05h, 30h-32h, 37h,3Eh  
Self test of diagnostic failed  
10h, 14h  
3Ah  
ID not found  
Spare sectors exhausted  
1Fh  
Data transfer error/aborted command  
0Ch, 38h, 3Bh, 3Ch, 3Fh Computed media format  
03h  
Write/erase failed  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Translate Sector — 87h  
The Translate Sector command is not currently supported by the  
SiliconSystems’ SiliconDrive. If the host issues this command, the device  
responds with 0x00h in the data register.  
Table 78: Translate Sector — 87h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
1
LBA  
1
Drive Head Number (LBA27-24)  
87h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Wear-Level — F5h  
The Wear-Level command is supported as an NOP command for the  
purposes of backward compatibility with the ANSI AT attachment standard.  
This command sets the Sector Count register to 0x00h.  
Table 79: Wear-Level — F5h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Completion Status  
X
X
X
X
X
X
Drive  
F5h  
Flag  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Write Multiple w/o Erase — CDh  
The Write Multiple w/o Erase command functions identically to the Write  
Multiple command, with the exception that the implied pre-erase (i.e., Erase  
Sector(s) command) is not issued prior to writing the sectors.  
Table 80: Write Multiple w/o Erase — CDh  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
X
LBA  
X
Drive Head Number (LBA27-24)  
CDh  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Write Sector(s) w/o Erase — 38h  
The Write Sector(s) w/o Erase command functions similar to the Write Sector  
command, with the exception that the implied pre-erase (i.e., Erase Sector(s)  
command) is not issued prior to writing the sectors.  
Table 81: Write Sector(s) w/o Erase — 38h  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
X
LBA  
X
Drive Head Number (LBA27-24)  
38h  
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ATA COMMAND BLOCK AND SET DESCRIPTION  
SSD-CXXX(I)-3600 DATA SHEET  
Write Verify — 3Ch  
The Write Verify command verifies each sector immediately after it is written.  
This command performs identically to the Write Sector(s) command, with the  
added feature of verifying each sector written.  
Table 82: Write Verify — 3Ch  
D
D
D
D
D
D
D
D
0
Register  
7
6
5
4
3
2
1
Feature  
X
Sector Count  
Sector Number  
Cylinder Low  
Cylinder High  
Drive Head  
Command  
Sector Count  
Sector Number (LBA7-0)  
Cylinder Low (LBA15-8)  
Cylinder High (LBA23-16)  
X
LBA  
X
Drive Head Number (LBA27-24)  
3Ch  
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SALES AND SUPPORT  
SSD-CXXX(I)-3600 DATA SHEET  
SALES AND SUPPORT  
To order or obtain information on pricing and delivery, contact your  
SiliconSystems Sales Representative.  
PART NUMBERING  
NOMENCLATURE  
The following table defines the SiliconDrive CF part numbering scheme.  
Table 83: Part Numbering Nomenclature  
SSD-  
C
YYY  
T
-3600  
Part number suffix —  
contact your  
SiliconSystems’ Sales  
Representative  
Temperature Range:  
Blank = Commercial  
I = Industrial  
Capacity: 12M = 128MB to 08G = 8GB  
Form Factor:  
C = CF  
D = 2.5" Drive  
M = Module  
P = PC Card  
SiliconSystems’ SiliconDrive  
PART NUMBERS  
The following table lists the SiliconDrive’s part numbers.  
Table 84: Part Numbers  
Part Number  
Capacity  
SSD-C08G(I)-3600  
SSD-C04G(I)-3600  
SSD-C02G(I)-3600  
SSD-C01G(I)-3600  
SSD-C51M(I)-3600  
SSD-C25M(I)-3600  
SSD-C12M(I)-3600  
8GB  
4GB  
2GB  
1GB  
512MB  
256MB  
128MB  
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PART NUMBERING  
SSD-CXXX(I)-3600 DATA SHEET  
ROHS 6 OF 6 PRODUCT LABELING — PB-FREE IDENTIFICATION LABEL  
The Pb-free identification label indicates that the enclosed components/  
devices and/or assemblies do not contain any lead (i.e., they are lead-free, as  
defined in RoHS directive 2002/95/ED). The above symbol is on all RoHS 6 of  
6 compliant product labels, as seen in Figure 8.  
SAMPLE LABEL  
Standard Back Label with  
Front Label  
Lot Code Information  
SiliconSystems, Inc.  
SiliconDrive  
8GB  
8GB  
SSD-C08G(I)-3600  
A123/3600  
Figure 8: Sample Label  
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RELATED DOCUMENTATION  
SSD-CXXX(I)-3600 DATA SHEET  
RELATED DOCUMENTATION  
For more information, visit www.siliconsystems.com or contact your  
SiliconSystems Sales Representative.  
Table 85: Related Documentation  
SiliconDrive  
Application-SpecificDescription  
Technology  
Document Number  
PowerArmor  
SiSMART  
SiProtect  
Eliminates drive corruption.  
WP-007-0xR  
Calculates remaining useful life.WP-008-0xR  
Protection software for  
password-required, read/write,  
or read-only access.  
WP-003-0xR  
SiSweep  
SiPurge  
Ultra-fast data erasure.  
SiSecure-0xANR  
Non-recoverable data erasure. SiSecure-0xANR  
SiliconSystems' performance tests, ratings, and product specifications are measured using specific computer systems  
and/or components and reflect the approximate performance of SiliconSystems’ products as measured by those tests.  
Any difference in system hardware or software design or configuration, as well as system use, may affect actual test  
results, ratings, and product specifications. SiliconSystems welcomes user comments and reserves the right to revise  
this document and/or make updates to product specifications, products, or programs described without notice at any  
time. SiliconSystems makes no representations or warranties regarding this document. The names of actual  
companies and products mentioned herein are the trademarks of their respective owners.  
®
®
®
®
®
®
®
SiliconSystems , SiliconDrive , SiliconDrive II , SiSecure , SiliconDrive EP , PowerArmor , SiSMART , SiKey™,  
SiZone™, SiProtect™, SiSweep™, SiPurge™, SiScrub™, SiliconDrive USB Blade™, SolidStor™, and the  
SiliconSystems logo are trademarks or registered trademarks of SiliconSystems, Inc. and may be used publicly only  
with the permission of SiliconSystems and require proper acknowledgement. Other listed names and brands are  
trademarks or registered trademarks of their respective owners.  
© Copyright 2009 by SiliconSystems, Inc. All rights reserved. No part of this publication may be reproduced without  
the prior written consent of SiliconSystems.  
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FEBRUARY 2, 2009  
   

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