Transcend Information TS16G-64GCF400, 400X Pin # Non, PC Card MEM PC Card IO Mode True IDE Mode

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TS16G~64GCF400

400X CompactFlash Card

 

 

 

and True IDE (the original mode to support UDMA). The usage of signals in each of the modes is shown in Table 24:Ultra DMA Signal Usage In Each Interface Mode

 

 

Pin # (Non

PC CARD MEM

PC CARD IO MODE

TRUE IDE MODE

UDMA Signal

Type

UDMA MEM

MODE UDMA

UDMA

UDMA

 

 

MODE)

 

 

 

 

 

DMARQ

Output

43 (-INPACK)

-DMARQ

-DMARQ

DMARQ

 

 

 

 

 

 

HREG

Input

44 (-REG)

-DMACK

DMACK

-DMACK

 

 

 

 

 

 

HIOW

Input

35 (-HIOW)

STOP 1

STOP 1

STOP 1

 

 

 

 

 

 

HIOE

Input

34 (-HIOE)

-HDMARDY(R) 1,

-HDMARDY(R) 1, 2

-HDMARDY(R) 1, 2

2HSTROBE(W) 1, 3, 4

HSTROBE(W) 1, 3, 4

HSTROBE(W) 1, 3, 4

 

 

 

 

 

 

IORDY

Output

42 (-WAIT)

-DDMARDY(W) 1, 3

-DDMARDY(W) 1, 3

-DDMARDY(W) 1, 3

DSTROBE(R) 1. 2. 4

DSTROBE(R) 1. 2. 4

DSTROBE(R) 1. 2. 4

 

 

 

 

 

 

HD [15:0]

Bidir

… (D[15:00])

D[15:00]

D[15:00]

D[15:00]

 

 

 

 

 

 

HA [10:0]

Input

… (A[10:00])

A[10:00]

A[10:00]

A[02:00] 5

 

 

 

 

 

 

CSEL

Input

39 (-CSEL)

-CSEL

-CSEL

-CSEL

 

 

 

 

 

 

HIRQ

Output

37 (READY)

READY

-INTRQ

INTRQ

 

 

 

 

 

 

CE1

Input

7 (-CE1)

-CE1

-CE1

-CS0

CE2

31 (-CE2)

-CE2

-CE2

-CS1

 

 

 

 

 

 

 

Notes:1) The UDMA interpretation of this signal is valid only during an Ultra DMA data burst.

2)The UDMA interpretation of this signal is valid only during and Ultra DMA data burst during a DMA Read command.

3)The UDMA interpretation of this signal is valid only during an Ultra DMA data burst during a DMA Write command.

4)The HSTROBE and DSTROBE signals are active on both the rising and the falling edge.

5)Address lines 03 through 10 are not used in True IDE mode.

Several signal lines are redefined to provide different functions during an Ultra DMA data burst. These lines assume their UDMA definitions when:

1an Ultra DMA mode is selected, and

2a host issues a READ DMA, or a WRITE DMA command requiring data transfer, and

3 the device asserts (-)DMARQ, and

4 the host asserts (-)DMACK.

These signal lines revert back to the definitions used for non-Ultra DMA transfers upon the negation of -DMACK by the host at the termination of an Ultra DMA data burst.

With the Ultra DMA protocol, the STROBE signal that latches data from D[15:00] is generated by the same agent (either host or device) that drives the data onto the bus. Ownership of D[15:00] and this data strobe signal are given either to the device during an Ultra DMA data-in burst or to the host for an Ultra DMA data-out burst.

During an Ultra DMA data burst a sender shall always drive data onto the bus, and, after a sufficient time to allow for propagation delay, cable settling, and setup time, the sender shall generate a STROBE edge to latch the data. Both edges of STROBE are used for data transfers so that the frequency of STROBE is limited to the same frequency as the data.

Words in the IDENTIFY DEVICE data indicate support of the Ultra DMA feature and the Ultra DMA modes the device is capable of supporting. The Set transfer mode subcommand in the SET FEATURES command shall be used by a host to select the Ultra DMA mode at which the system operates. The Ultra DMA mode selected by a host shall be less than or equal to the fastest mode of which the device is capable. Only one Ultra DMA mode shall be selected at any given time. All timing requirements for a selected Ultra DMA mode shall be satisfied. Devices supporting any Ultra DMA mode shall also support all slower Ultra DMA modes.

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Contents Description Placement FeaturesDimensions Specification Performance Actual CapacityModel P/N Model P/N User LBA Cylinder Head SectorBlock Diagram TS16G~64GCF400 True IDE Mode4 PC Card Memory Mode PC Card I/O ModePin Assignments and Pin Type PC Card Memory Mode PC Card I/O Mode True IDE Mode4 Output Drive Type Input CharacteristicsInput Leakage Current Type Parameter Symbol Conditions Output Drive CharacteristicsOutput Drive Characteristics Signal Description Signal Name Dir Pin Description400X CompactFlash Card StschgCsel GNDPin Description Signal NameDir Intrq StopReady Dmack ResetREG Wait IordyDdmardy DstrobeElectrical Specification CompactFlash Interface I/O atInput Power Input Characteristics for Udma mode Parameter SymbolOutput Drive Characteristics for Udma mode UnitsSignal Interface Signal Card10 Host10Low Pull-up pin 45 BVD2 to avoid sensing their batteries as LowLow state 150 a high state per socketTable Typical Series Termination for Ultra DMA Ultra DMA Electrical RequirementsSeries termination required for Ultra DMA operation Ultra DMA Mode Cabling Requirement Attribute Memory Read Timing Specification SymbolIeee Symbol Min ns Max ns Speed VersionTable Configuration Register Attribute Memory Write Timing Speed Version 250 ns Symbol Min ns Max nsCommon Memory Read Timing Specification Cycle Time ModeIeee 250 ns 120 ns 100 ns 80 ns MinCommon Memory Write Timing Specification Cycle Time Mode 250 ns SymbolSymbol 120 ns Min 100 ns MinMin Max Symbol Input Read Timing SpecificationCycle Time Mode 250 ns 120 ns 100 ns 80 ns TsuHIOW TDVIWH ThHIOW TlWHDX TwHIOW TlWLIWH Output Write Timing SpecificationCycle Time Mode 255 ns 120 ns 100 ns 80 ns T6Z True IDE PIO Mode Read/Write Timing SpecificationMode TS16G~64GCF400 True IDE Multiword DMA Mode Read/Write Timing Specification True IDE Ultra DMA Mode Read/Write Timing Specification PC Card MEM PC Card IO Mode True IDE Mode Udma Signal TypeMode Udma Pin # NonTS16G~64GCF400 Name Name Comment Name Mode Mode4 UdmaMin Max 14.7Rising Edge Slew Rate for any signal Falling Edge Slew Rate for any signalCard Configuration Multiple Function CompactFlash Storage CardsREG Selected SpaceStop Dmardy Strobe Dmarq Dmack Hioe DMAHIO Inpack REGFunction Mode Attribute Memory FunctionTable Attribute Memory Function DMA CMD REGConfiguration Option Register Base + 00h in Attribute Memory TS16G~64GCF400 Pin Replacement Register Base + 04h in Attribute Memory Socket and Copy Register Base + 06h in Attribute Memory Table Pcmcia Mode I/O Function Transfer FunctionDMA REG Hioe HiowTable PC Card I/O Mode Udma Function Dmardy StrobeDmarq Dmack Stop Hioe Wait DMA A10 Inpack REG HiowCE2 CE1 D15-D8 D7-D0 Common Memory Transfer FunctionTable Common Memory Function True IDE Mode I/O Transfer Function Metaformat Overview CF-ATA Drive Register Set Definition and Protocol Primary and Secondary Address Configurations Table Primary and Secondary I/O DecodingContiguous I/O Mapped Addressing Table Contiguous I/O DecodingTrue IDE Mode Addressing Memory Mapped AddressingCF-ATA Registers Data Register Address 1F0h170hOffset 0,8,9Feature Register Address 1F1h171h Offset 1, 0Dh Write Only Sector Count Register Address 1F2h172h OffsetSector Number LBA 7-0 Register Address 1F3h173h Offset Cylinder Low LBA 15-8 Register Address 1F4h174h OffsetTS16G~64GCF400 Device Control Register Address 3F6h376h Offset Eh Card Drive Address Register Address 3F7h377h Offset Fh CF-ATA Command Set Command CodeDefinitions Check Power Mode 98h or E5h Execute Drive Diagnostic 90hBit Command Cyl High Cyl Low Sec Num Sec Cnt FeatureTranscend Information Inc Erase Sectors C0hFlush Cache E7h Format Track 50hDrive Cyl High Cyl Low Sec Num Sec Cnt Feature Word Default Total Data Field Type InformationIdentify Device Ech BytesDefault Total Data Field Type Information Word 0 General Configuration Word 1 Default Number of CylindersCF Advanced True IDE Timing Mode Capability and Setting 164 162 0000h Key management schemes supported 163Word 3 Default Number of Heads Word 6 Default Number of Sectors per TrackWord 49 Capabilities Bit 13 Standby Timer PIO Data Transfer Cycle Timing ModeMultiple Sector Setting Total Sectors Addressable in LBA ModeCurrent Capacity Multiword DMA transferWords 82-84 Features/command sets supported Word 68 Minimum PIO transfer cycle time with IordyWords 85-87 Features/command sets enabled Word 88 Ultra DMA Modes Supported and SelectedWord 91 Advanced power management level value Word 160 Power Requirement DescriptionWord 89 Time required for Security erase unit completion Word 128 Security Status Bit 8 Security LevelValue Current PIO timing mode selected Maximum PIO mode timing selectedMaximum Multiword DMA timing mode supported Additional Requirements for CF Advanced Timing ModesMaximum Memory timing mode Supported Value Current Multiword DMA timing mode selectedMaximum Pcmcia IO timing mode Supported Value PC Card Memory or I/O Udma timing mode Selected Value Maximum PC Card I/O Udma timing mode SupportedValue Maximum PC Card Memory Udma timing mode Supported Idle 97h or E3h Idle Immediate 95h or E1hInitialize Drive Parameters 91h NOP 00hRead Buffer E4h Read DMA C8h Read Long Sector 22h or 23hTS16G~64GCF400 Seek 7Xh Set Features EFh Request Sense 03hFeature Supported TS16G~64GCF400 Standby Immediate 94h or E0h Translate Sector 87h Translate Sector InformationWear Level F5h Write Buffer E8h Write DMA CAh TS16G~64GCF400 TS16G~64GCF400 Error Posting Error Register Status RegisterNOP BBKBBK UNC Idnf Abrt Amnf Drdy DWF DSC Corr ERR Smart Command Set Smart Command Set Smart Feature Register ValuesSmart Data Structure DescriptionSMI CompactFlash Card Ordering InformationTranscend Product Capacity

TS16G-64GCF400, 400X specifications

The Transcend Information TS16G-64GCF400, 400X is a high-performance CompactFlash card designed specifically to meet the demanding requirements of professionals in photography, video production, and data-intensive applications. With a capacity of 64GB and boasting an impressive transfer speed of up to 400X, the TS16G-64GCF400 is ideal for those seeking reliability and efficiency when recording high-resolution images and videos.

One of the standout features of this CompactFlash card is its exceptional read and write speeds. The card can achieve read speeds of up to 90 MB/s and write speeds that can reach up to 60 MB/s. These performance metrics make the TS16G-64GCF400 particularly suitable for burst shooting and continuous video recording, ensuring that every moment is captured accurately and without lag.

In terms of technology, the card utilizes advanced flash memory technology to enhance both speed and durability. Built with a robust construction, it is designed to withstand extreme conditions, making it resistant to shock, temperature fluctuations, and high humidity. This resilience is particularly important for users who often work in unpredictable environments or travel frequently.

The TS16G-64GCF400 is also equipped with the Ultra DMA mode, allowing for faster data transfer between the card and the camera or device it is used with. It supports both PIO and multi-word DMA modes, ensuring compatibility with a wide range of devices. Furthermore, it adheres to the CompactFlash Association's CF4.1 specifications, ensuring that users can rely on its performance across a variety of applications.

Another characteristic worth mentioning is the card's data security features. The Transcend TS16G-64GCF400 incorporates Error Correction Code (ECC) technology to detect and correct potential data corruption, ensuring that files remain intact over time. Additionally, it has built-in wear leveling technology to promote the distribution of write and erase cycles evenly across the memory cells, ultimately prolonging the lifespan of the card.

In conclusion, the Transcend Information TS16G-64GCF400, 400X CompactFlash card stands out in the competitive market of storage solutions. With its impressive speed, durability, and advanced features, it is an excellent choice for professional photographers and videographers who demand high performance and reliability in their storage devices. Whether capturing the next big moment or storing essential data, this card is sure to deliver the performance users need.
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