Data Sheet January 2002 DiskOnChip 2000 DIP MD2200/2/3 Features Single-chip plug-n-play flash disk Low power, single 3.3V or 5V power supply 16MB to 576MB capacity (1GB in 2002) Pinout and structure compatible with DiskOnChip Millennium DIP 8MB Simple, easy-to-integrate interface 32-pin DIP, JEDEC standard, EEPROM-compatible pinout 8KB sized memory window Boot OS capability Embedded TrueFFS software provides: Embedded systems Internet access devices — Full hard disk read/write emulation Internet set-top boxes/ITV, Web browsers — Third-generation wear leveling WBT, thin clients, network computers — Automatic block management Routers, networking Operates with DiskOnChip SDK in Applications OS-less environments, ANSI-C source code kit Error Detection and Correction (EDC/ECC) for higher data reliability Low power consumption – Static Operation Broad OS support: DOS, Windows NT4.0/5.0, Windows CE, BE, pSOS+, QNX, VxWorks, and others Compatible with major processors: x86, MediaGX, Geode SCxxxx, PowerPC, 68K, MIPS, SHx, StrongARM, and others 91-SR-002-42-8L Rev. 3.4 Web phones, car PCs, DVD, HPC Point of sale, industrial PCs Telecom, medical 1 DiskOnChip 2000 DIP Table of Contents 1 General Description................................................................................................................... 4 2 Detailed Feature List.................................................................................................................. 5 TrueFFS Technology............................................................................................................................ 5 Low Power Consumption ..................................................................................................................... 5 Temperature Range ............................................................................................................................. 5 Easy to Integrate .................................................................................................................................. 6 Robust Error Correction ....................................................................................................................... 6 High Reliability...................................................................................................................................... 6 High Speed........................................................................................................................................... 6 Compatibility with 8MB DiskOnChip Millennium Series ....................................................................... 6 Broad Support for Operating Systems and Processors ....................................................................... 6 Portable Solution – Shorter Time to Market ......................................................................................... 7 Complete Solution ................................................................................................................................ 7 3 Package Description and Pin List ............................................................................................ 8 4 Designing with the DiskOnChip 2000 Flash Disk ................................................................... 9 4.1 Hardware.............................................................................................................................. 9 4.2 Software ............................................................................................................................... 9 4.3 Designing DiskOnChip 2000 into PC Architecture ............................................................... 9 5 Disk Capacities and Contents ................................................................................................ 11 5.1 Low-Profile ......................................................................................................................... 11 5.2 High-Profile......................................................................................................................... 11 5.3 Media Contents .................................................................................................................. 11 6 Theory of Operation................................................................................................................. 12 6.1 Error Detection and Correction (EDC/ECC) ....................................................................... 12 7 Specifications .......................................................................................................................... 13 7.1 Absolute Maximum Ratings................................................................................................ 13 7.2 Capacitance ....................................................................................................................... 13 7.3 Temperature Ranges ......................................................................................................... 13 7.4 DiskOnChip Assembly........................................................................................................ 13 7.5 Humidity ............................................................................................................................. 13 7.6 EDC/ECC ........................................................................................................................... 13 7.7 DC Electrical Characteristics over Operating Range.......................................................... 14 7.7.1 Vcc = 5V Characteristics...........................................................................................................14 7.7.2 Vcc = 3.3V Characteristics........................................................................................................15 91-SR-002-42-8L Rev. 3.4 2 DiskOnChip 2000 DIP 7.8 AC Operating Conditions.................................................................................................... 15 7.9 Timing Specifications ......................................................................................................... 16 7.9.1 Read Cycle Timing....................................................................................................................16 7.9.2 Write Cycle Timing ....................................................................................................................17 8 Mechanical Dimensions .......................................................................................................... 18 9 Shock and Vibration ................................................................................................................ 19 10 Ordering Information ............................................................................................................... 19 11 Additional Information............................................................................................................. 20 How to Contact Us .......................................................................................................................... 21 91-SR-002-42-8L Rev. 3.4 3 DiskOnChip 2000 DIP 1 General Description The DiskOnChip 2000 product line is the second-generation of M-Systems’ DiskOnChip series of products. The 2000 series provides a small, single-chip, solid-state flash disk in a standard 32-pin DIP package. Combining a disk controller with flash memory on a single chip, DiskOnChip 2000 is the solution where minimal weight, space, and power consumption are essential. In consequence, the 2000 series finds use today in a wide range of products, such as information appliances, set-top boxes, thin clients, thin servers, network computers, and embedded, portable computers. By placing DiskOnChip 2000 in a standard socket, physical space requirements are reduced. Unlike standard IDE drives, no cables or extra space are required. DiskOnChip 2000 has no moving parts, resulting in significantly decreased power consumption and increased reliability. It is easy to use and reduces integration overhead. DiskOnChip 2000 is therefore a very attractive alternative to conventional hard and floppy disk drives. Using TrueFFS technology, DiskOnChip 2000 delivers full hard disk emulation. As such, the design and integration stages can be considerably reduced, thereby enabling very fast time-to-market and ease of production. Combined with its very attractive cost structure, DiskOnChip 2000 is a superior alternative to resident flash array (RFA). DiskOnChip 2000 products are available in capacities ranging from 16MB to 576MB. In addition, they are 100% pinout and software compatible with the DiskOnChip Millennium DIP 8MB package. In future versions, the capacity will be dramatically increased (up to 1GB during 2002). Since the same pinout will be retained, the socket on the target platform will not have to be changed to accommodate the larger capacities. DiskOnChip technology provides broad support for all major operating systems and processors in the market, enabling it to be readily integrated with any architecture. DiskOnChip 2000 is shipped as a plug-and-play device that is fully tested and formatted, and programmed with a DOS driver. Future driver, software or content upgrades, or formatting, can be made on-board or off-board using DiskOnChip utilities and accessories provided by M-Systems. 91-SR-002-42-8L Rev. 3.4 4 DiskOnChip 2000 DIP 2 Detailed Feature List TrueFFS Technology For a flash disk to emulate a hard disk, a software management layer is required. TrueFFS is M-Systems’ patented flash file system management technology that allows flash components to fully emulate hard disks, so they can be written to and read from like any other hard disk. TrueFFS software simplifies and enhances flash memories by: • Using third-generation wear leveling, which ensures that all blocks are erased an equal number of times. This increases the life of the flash media by orders of magnitude. • Using virtual blocking of the flash device to make erasure of large blocks transparent to the operator. • Automatic block mapping. • Implementing a robust power-loss recovery mechanism to guarantee absolute protection of data. • Providing conventional address support for various architecture configurations. • The TrueFFS driver supports 8-bit, 16-bit, and 32-bit bus architectures. Support for the 16-bit and 32-bit bus architectures, typically used in RISC processors, can be achieved by using the LSB of the data bus as follows: For 16-bit address boundary shifts, shift the address lines by one, so that the host address line A1 connects to DiskOnChip 2000 address line A0, the host address line A2 connects to DiskOnChip 2000 line A1, and so on. For 32-bit address boundary shifts, shift the address lines by two, so that the host address line A2 connects to DiskOnChip 2000 address line A0, the host address line A3 connects to DiskOnChip 2000 line A1, and so on. Refer to Application Note AP-DOC-030 for more details. Low Power Consumption The internal functions are synchronized with the CPU’s read and write strobes. This innovation eliminates the need for an external clock and dramatically reduces power consumption. DiskOnChip 2000 requires only a single 3.3V or 5V power supply, which helps simplify integration. These features make DiskOnChip 2000 the best cost/performance solution for computers that require minimal weight, space, and power consumption, providing a very attractive alternative to conventional hard and floppy disk drives. Temperature Range DiskOnChip 2000 is available in both commercial (0 ºC to +70 ºC) and extended (-40 ºC to +85 ºC) temperature ranges. * DiskOnChip 2000 192MB and 576MB capacities are available only for commercial temperature ranges. 91-SR-002-42-8L Rev. 3.4 5 DiskOnChip 2000 DIP Easy to Integrate Fast integration is ensured by the following DiskOnChip 2000 features: • Compatibility with standard EEPROM DIP pinout • Support for local bus and ISA bus interface • Small memory map window size – only 8KB • Static operation – no clock required • 16mA output drive (18mA at 3.3V) Robust Error Correction The DiskOnChip family utilizes a Reed-Solomon Error Detection Code (EDC) and Error Correction Code (ECC), providing the following error immunity for each 512-byte block of data: • Corrects up to two 10-bit symbols, including two random bit errors • Corrects single bursts of up to 11 bits • Detects single bursts of up to 31 bits, and double bursts of up to 11 bits • Detects up to 4 random bit errors High Reliability DiskOnChip 2000 can be inserted into standard DIP sockets, eliminating the need for mechanical disk drives, bulky ribbon cables and connectors. The design of DiskOnChip 2000 ensures high reliability even when subjected to levels of shock, vibration, and temperature changes that would destroy a conventional magnetic disk drive. High Speed DiskOnChip 2000 implements an integrated architecture for data transfers, which eliminates bottlenecks typical in this area. Additionally, it doubles read performance and significantly improves write performance, in comparison to competitive alternatives. DiskOnChip 2000 can sustain system write speeds of over 550KB per second, read speeds of more than 1.4MB per second (measured in ISA no wait state environment) and read/write burst transfer rates of nearly 5MB per second. Compatibility with 8MB DiskOnChip Millennium Series DiskOnChip 2000 is a 32-pin Dual Inline Package (DIP) that provides 100% pinout compatibility with M-Systems' DiskOnChip Millennium DIP (8MB). DiskOnChip 2000 is fully software compatible with M-Systems' DiskOnChip Millennium DIP (8MB), for version 1.21 and higher. Broad Support for Operating Systems and Processors The DiskOnChip family of products, supplied with TrueFFS firmware, supports a wide range of operating systems (OS), including DOS, Windows 2000, Windows CE, Windows NT, Windows Embedded NT, BE, QNX, VxWorks, pSOS, Linux, FreeBSD, PharLap ETS, VRTX and more. 91-SR-002-42-8L Rev. 3.4 6 DiskOnChip 2000 DIP In addition, leading operating systems such as Windows CE and Tornado, offer native support for the DiskOnChip family of products for easy integration. For OS-less applications and customized solutions, M-Systems offers its DiskOnChip TrueFFS SDK, an ANSI-C source code kit designed specifically to support these environments. The DiskOnChip family of products is compatible with all major processors, supporting popular processors such as x86, 68K, MediaGx, Geode SCxxxx, PowerPC, MIPS, SHx, StrongARM, and many others. Portable Solution – Shorter Time to Market The development and integration time for implementing a flash disk is greatly reduced by DiskOnChip’s standard software interface, which provides portability to other operating systems and processors and thereby shortens your time to market. Complete Solution The DiskOnChip 2000 series offers a full flash disk solution that includes different voltage and temperature options, software drivers tailored to your operating system, data sheets, application support and online email support. Using DiskOnChip evaluation boards (EVB), you can develop your software before the target hardware is ready. The DiskOnChip GANG Programmer reduces your production time, and facilitates fast response time to application software changes during production stages. In all, DiskOnChip offers a complete set of tools for delivering a complete solution whenever your application can use a flash disk. 91-SR-002-42-8L Rev. 3.4 7 DiskOnChip 2000 DIP 3 Package Description and Pin List # X # # Figure 1: Package Description and Pinout Pin Name A0 - A12 Description Address bus Pin Number 4 to 12, 23, 25 to 27 Direction Input Data bus 13 to 15, 17 to 21 I/O CE# Chip Enable, active low 22 Input OE# Output Enable, active low 24 Input WE# Write Enable, active low 31 Input Not Connected. These pins may be left floating, tied to Vcc, GND or logic levels. Absolute Maximum Ratings must be observed. 1, 2, 3, 28, 29, 30 VCC Power 32 GND Ground 16 D0 – D7 NC 91-SR-002-42-8L Rev. 3.4 8 DiskOnChip 2000 DIP 4 Designing with the DiskOnChip 2000 Flash Disk 4.1 Hardware DiskOnChip 2000 should be connected as a standard memory device, using standard memory interface signals. Typically, DiskOnChip 2000 can be mapped to any free 8KB memory space. In PC architectures, if the memory window allocated to DiskOnChip 2000 is larger than 8KB, an automatic anti-aliasing mechanism prevents the firmware from being loaded more than once. Figure 1 illustrates a typical interface between DiskOnChip 2000 and a system. A[12:0] D[7:0] OE# WE# DiskOnChip 2000 Any Capacity CE# Figure 2: Simplified I/O Diagram 4.2 Software DiskOnChip 2000, under control of TrueFFS, is accessed using standard file system calls like any other block device. Applications can write to and read from any sector on DiskOnChip 2000, which is compatible with all diagnostic utilities, applications and file systems. The flash memory within DiskOnChip 2000 is accessed by TrueFFS through an 8KB window in the CPU’s memory space. TrueFFS handles the paging of this window in the flash array, as well as providing flash disk emulation that includes flash table management, wear leveling, mapping out bad blocks, and background space reclamation of unused flash blocks. The same 8KB address space will be retained in future versions of DiskOnChip 2000 that offer greater capacities. 4.3 Designing DiskOnChip 2000 into PC Architecture When used in PC-compatible architectures, DiskOnChip 2000 is allocated an 8KB memory window in the BIOS expansion memory range, which is usually located between 0C8000h and 0EFFFFh. Figure 3 illustrates the DiskOnChip 2000 memory window in relation to the PC memory map. 91-SR-002-42-8L Rev. 3.4 9 DiskOnChip 2000 DIP Extended Memory 0FFFFFh BIOS 1MB 0F0000h 8KB DiskOnChip 0C8000h Display 0A0000h 640KB RAM 0 Figure 3: PC Memory Map After reset, the BIOS executes the POST (Power On Self-Test), and then searches for all expansion ROM devices. When DiskOnChip 2000 is found, the BIOS executes the Initial Program Loader (IPL) code located in the boot-block area of DiskOnChip 2000. This code loads the TrueFFS driver into system memory, installs DiskOnChip 2000 as a disk in the system, and then returns control back to the BIOS code. The operating system subsequently attempts to identify disks that are available and the DiskOnChip 2000 software (TrueFFS) responds by emulating a hard disk. From this point onward, DiskOnChip 2000 is identified by the system as a standard disk drive. It is assigned a drive letter and it can be used by any software application. No BIOS setup modifications, autoexec.bat/config.sys modifications or external software are required. • DiskOnChip 2000 can be used as the only disk in the system, in which case it will be accessed as drive [C:]. • DiskOnChip 2000 can operate with or without a floppy drive, or with additional hard disks. When working with a hard disk, DiskOnChip 2000 can be configured as the last drive (the default configuration). In this case, the hard disk will be drive [C:] and DiskOnChip 2000 will be drive [D:]. • DiskOnChip 2000 can also be configured as the first drive. In this case, the hard disk will be drive [D:] and DiskOnChip 2000 will be drive [C:]. • DiskOnChip 2000 can be used as the boot device when configured as drive [C:]. In this configuration, you must format DiskOnChip 2000 as a bootable device by copying the OS files onto the disk. When running DOS, use the SYS command for this purpose. 91-SR-002-42-8L Rev. 3.4 10 DiskOnChip 2000 DIP 5 Disk Capacities and Contents The capacities for the various models are detailed in the following two tables. 5.1 Low-Profile Model Formatted Capacity (bytes) Sectors Formatted Capacity under DOS 6.22 (bytes) Sectors under DOS 6.22 MD2202-D16 16,375,808 31,984 16,324,608 31,884 MD2200-D24 24,592,384 48,032 24,516,608 47,884 MD2202-D32 32,800,768 64,064 32,724,992 63,916 MD2202-D48 49,233,920 96,160 49,092,608 95,884 MD2202-D64 65,683,456 128,288 65,525,760 127,980 MD2202-D96 98,566,144 192,512 98,390,016 192,168 MD2202-D192 197,279,744 381,300 103,829,024 385,280 5.2 High-Profile Model Formatted Capacity (bytes) Sectors Formatted Capacity under DOS 6.22 (bytes) Sectors under DOS 6.22 MD2203-D80 82,116,608 160,384 81, 989, 632 160,136 MD2203-D112 114,999,296 224,608 114, 786, 304 224,192 MD2203-D144 147,881,984 288,832 147, 578, 880 288,240 MD2203-D160 164,331,520 320,960 164, 151, 296 320,608 MD2203-D192 197,214,208 385,184 196, 980, 736 384,728 MD2203-D224 230, 031, 360 449, 280 229, 584, 896 448, 408 MD2203-D256 262, 930, 432 513, 536 262, 647, 808 512, 984 MD2203-D288 295, 796, 736 577,728 295, 624, 704 577,392 MD2203-D576 591, 790, 080 1,142,970 311, 427, 072 1,155,776 5.3 Media Contents DiskOnChip 2000 products are shipped from M-Systems fully tested, already formatted, and come with a DOS driver. 91-SR-002-42-8L Rev. 3.4 11 DiskOnChip 2000 DIP 6 Theory of Operation VCC GND CE# WE# Flash Control System Interface OE# D[0:7] Flash A[0:12] Boot Block (IPL ROM) EDC/ECC Figure 4: DiskOnChip 2000 Simplified Block Diagram DiskOnChip 2000 appears to the system’s hardware as a standard EEPROM, via the System Interface block. The host cycles are passed to the Flash Control block, to be written to or read from the flash device. To ensure the highest level of reliability, each cycle is monitored by the EDC/ECC (Error Detection and Correction) block. In write cycles, the EDC/ECC block generates a syndrome for every sector that contains data, which is stored in the flash together with the sector. When the sector is read, the syndrome is regenerated for the data and compared with the original syndrome. When a mismatch is detected, it is repaired. The boot block is responsible for answering the BIOS expansion search in PC architectures. After the BIOS identifies DiskOnChip 2000 as a valid BIOS expansion device, it executes the code stored in the boot block. The BIOS then loads the TrueFFS software from the flash memory into the host memory, delivering full disk capabilities to the operating system. This code is identical for all DiskOnChip 2000 capacities, since TrueFFS automatically detects the memory capacity of DiskOnChip 2000. 6.1 Error Detection and Correction (EDC/ECC) DiskOnChip 2000 uses the Reed-Solomon EDC/ECC algorithm to ensure high data reliability. Each time a block of data is written to the flash, a 6-byte checksum is also written. Each time the data is read back from the flash, a new 6-byte code is computed. TrueFFS uses these checksums for error detection and, if necessary, error correction. 91-SR-002-42-8L Rev. 3.4 12 DiskOnChip 2000 DIP 7 Specifications 7.1 Absolute Maximum Ratings Symbol 3.3V Model Rating1 5V Model Rating1 Units VCCS -0.5 to 4.6 -0.3 to 6.0 V Input pin voltage2 VIN -0.5 to VCC + 0.3 -0.3 to VCC + 0.3 V Input pin current IIN Not Specified -10 to 10 mA Parameter DC supply voltage Notes +25 °C Note 1: Permanent device damage may occur if absolute maximum ratings are exceeded. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Note 2: The voltage on any pin may undershoot to -2.0V or overshoot to Vcc+2.0V for periods <20ns. 7.2 Capacitance Symbol Parameter Conditions 3.3V Model Rating 5V Model Rating Unit CI/O Input/Output Capacitance MD2200/2, VIN = 0V MD2203, VIN = 0V 12 36 15 45 pF pF Note: Capacitance is not 100% tested. 7.3 Temperature Ranges Commercial operating temperature: 0 ºC to +70 ºC* Extended operating temperature: -40 ºC to +85 ºC Storage temperature: -50 ºC to +85 ºC *DiskOnChip 2000 192MB and 576MB capacities are available only for commercial temperature ranges. 7.4 DiskOnChip Assembly The DiskOnChip 2000 DIP device is not hermetically sealed. Therefore, it must be assembled after the PCB goes through its final rinse. Assembling DiskOnChip 2000 prior to the rinse phase may cause it to absorb moisture. Failure to adhere to the above assembly instruction can lead to device failures not covered by M-Systems' warranty. Note: DiskOnChip 2000 DIP requires a DIP socket on the target platform. Due to its plastic shell and molding material, it cannot be soldered directly to the platform. 7.5 Humidity 10% - 90% relative, non-condensing 91-SR-002-42-8L Rev. 3.4 13 DiskOnChip 2000 DIP 7.6 EDC/ECC Enhanced Reed-Solomon: • Corrects up to two 10-bit symbols, including two random bit errors. • Corrects single bursts of up to 11 bits. • Detects single bursts of up to 31 bits and double bursts of up to 11 bits. • Detects up to 4 random bit errors. 7.7 7.7.1 Symbol DC Electrical Characteristics over Operating Range Vcc = 5V Characteristics Parameter Conditions Min Typ Max Unit 5.0 5.5 V VCCS System Supply Voltage 4.5 VIH High-level Input Voltage 2.0 VIL Low-level Input Voltage VOH High-level Output Voltage IOH = -16mA VOL Low-level Output Voltage IIL Input Leakage Current IOZ Output Leakage Current IVCC Supply Current ISTDBY Standby Current 91-SR-002-42-8L Rev. 3.4 V 0.8 V IOL = 16mA 0.4 V MD2200, MD2202 ±10 µA MD2203 ±30 µA MD2200, MD2202 ±10 µA MD2203 ±30 µA 2.4 V 200ns Cycle Time, Outputs open 40 60 mA MD2200, MD2202 60 400 µA MD2203 240 1200 µA 14 DiskOnChip 2000 DIP 7.7.2 Vcc = 3.3V Characteristics Symbol VCCS VIH VIL VHYS Parameter System Supply Voltage High-level Input Voltage Low-level Input Voltage Input Voltage Hysteresis VOH High-level Output Voltage VOL Low-level Output Voltage IIL Input Leakage Current IOZ Output Leakage Current IVCC Supply Current ISTDBY Standby Current 7.8 Conditions Min 3.0 2.7 Typ 3.3 0.6 1.5 1.1 IOH = -18mA IOH = 0mA Max 3.6 2.4 Vcc-0.1 V V IOL = 18mA IOL = 0mA MD2200, MD2202 0.4 0.1 ±10 ±30 ±10 ±30 MD2203 MD2200, MD2202 MD2203 150ns Cycle Time, Outputs open MD2200, MD2202 MD2203 Unit V V V V 30 70 300 60 400 1350 V V µA µA µA µA mA µA µA AC Operating Conditions Timing specifications are based on the following conditions: Parameter Supply Voltage Input Pulse Levels 3.3V Model 5V Model VCC = 3.3V ±0.3V VCC = 5V ±0.5V 0.2V to 2.9V 0.4V to 2.6V Input Rise and Fall Times 1ns 5ns Input and Output Timing Levels 1.5V 0.8V and 2.0V 100 pF 50 pF Output Load 91-SR-002-42-8L Rev. 3.4 15 DiskOnChip 2000 DIP 7.9 Timing Specifications 7.9.1 Read Cycle Timing TSU(A) A[0..12] CE# THO(CE1) TSU(CE0) TSU(CE1) THO(CE0) OE# TREC TACC WE# TDIS(D) TEN(D) D[0..7] Figure 5: Read Cycle Symbol Description 3.3V Min (ns) 5V Max (ns) Min (ns) Notes Max (ns) TSU(A) Address to OE# È setup 2 10 THO(A) OE#È to Address hold 35 56 TSU(CE0) CE# È to OE# È setup 0 0 1 THO(CE0) OE#Ç to CE# = 0 hold 0 0 2 THO(CE1) OE# or WE#Ç to CE# = 1 hold 8 42 TSU(CE1) CE#Ç to WE# or OE#È setup time 8 42 TREC OE#Ç to start of next cycle 20 59 TACC Read access time TEN(D) OE#È to D active delay TDIS(D) OE#Ç to D Hi-Z delay 110 15 75 13 130 7 91 44 Note 1: CE# may be asserted any time before or after OE# is asserted. If CE# is asserted after OE#, all timing relative to OE# asserted will be referenced instead to the time CE# was asserted. Note 2: CE# may be negated any time before or after OE# is negated. If CE# is negated before OE#, all timing relative to OE# negated will be referenced instead to the time CE# was negated. 91-SR-002-42-8L Rev. 3.4 16 DiskOnChip 2000 DIP 7.9.2 Write Cycle Timing TSU(A) THO(A) A[0..12] THO(CE1) CE# THO(CE0) OE# TSU(CE1) THO(CE0) TW (WE) TREC WE# TSU(D) THO(D) D[0..7] Figure 6: Write Cycle Symbol Description 3.3V Min (ns) Max (ns) 5V Min (ns) Notes Max (ns) TSU(A) Address to WE#È setup time 0 10 THO(A) WE#È to Address hold time 35 56 TW(WE) WE# asserted width 62 98 TSU(CE0) CE#È to WE#È setup time 0 0 1 THO(CE0) WE#Ç to CE# = 0 hold time 0 0 2 THO(CE1) OE# or WE#Ç to CE# = 1 hold time 8 42 TSU(CE1) CE#Ç to WE# or OE#È setup time 8 42 TREC WE#Ç to start of next cycle 22 59 TSU(D) D to WE#Ç setup time 50 48 THO(D) WE#Ç to D hold time 0 40 Note 1: CE# may be asserted any time before or after WE# is asserted. If CE# is asserted after WE#, all timing relative to WE# asserted will be referenced instead to the time CE# was asserted. Note 2: CE# may be negated any time before or after WE# is negated. If CE# is negated before WE#, all timing relative to WE# negated will be referenced instead to the time CE# was negated. 91-SR-002-42-8L Rev. 3.4 17 DiskOnChip 2000 DIP 8 Mechanical Dimensions Figure 7: MD220x Mechanical Dimensions Low-Profile MD2200 MD2202 Millimeters (max.) Millimeters (max.) A 41.9 43.95 B 18.05 18.3 C 2.54 2.54 D 15.24 15.24 E 5.7 6.0 F 4.0 4.0 G 0.51 0.51 H 38.2 38.2 High-Profile MD2203 Millimeters (max.) A 45.6 B 18.8 C 2.54 D 15.24 E 13.5 F 4.0 G 0.51 H 38.2 Note: The above dimensions are maximum values. 91-SR-002-42-8L Rev. 3.4 18 DiskOnChip 2000 DIP 9 Shock and Vibration Reliability Test Test Conditions Reference Standard Vibration 100Hz~2000Hz, 15G peak, 3 cycles per axis (1hr.), 3 axes STD-202F, Method 204D Mechanical Shock Half sine shock 50G, 11msec, +/-3 shock per axis, 3 axes STD-202F, Method 213B 10 Ordering Information MD2200-DCC-V-T (Low-Profile) CC: Capacity (MB) 24 V: Supply Voltage Blank V3 5V 3.3V T: Temperature Range (optional) Blank X Commercial: 0 °C to +70 °C Extended: -40 °C to +85 °C MD2202-DCCC-V-T (Low-Profile) CC: Capacity (MB) 16, 32, 48, 64, 96, 192* V: Supply Voltage Blank V3 5V 3.3V T: Temperature Range (optional) Blank X Commercial: 0 °C to +70 °C Extended: -40 °C to +85 °C MD2203-DCCC-V-T (High-Profile) CCC: Capacity (MB) 80, 112, 144, 160, 192, 224, 256, 288, 576* V: Supply Voltage Blank V3 5V 3.3V T: Temperature Range (optional) Blank X Commercial: 0 °C to +70 °C Extended: -40 °C to +85 °C * DiskOnChip 2000 DIP 192MB and 576MB capacities are available only for commercial temperature ranges. 91-SR-002-42-8L Rev. 3.4 19 DiskOnChip 2000 DIP 11 Additional Information Document/Tool Description DiskOnChip Utilities DiskOnChip Utilities User Manual DiskOnChip Quick Installation Guide DiskOnChip Quick Installation Guide AP-DOC-010 Application Note: Designing with DiskOnChip DIP AP-DOC-016 Application Note: Using DiskOnChip with QNX AP-DOC-020 Application Note: DiskOnChip Boot Developers Kit AP-DOC-030 Application Note: Designing DiskOnChip Millennium in RISC Environment AP-DOC-031 Application Note: Designing with DiskOnChip Millennium in a PC Environment AP-DOC-039 Application Note: Onboard Programming of the DiskOnChip Millennium AP-DOC-047 Application Note: Designing DiskOnChip as a Flash Disk & Boot Device Replacement IM-DOC-017 Installation Manual: Using DiskOnChip with Windows CE IM-DOC-021 Installation Manual: Using DiskOnChip with Linux O/S IM-DOC-022 Installation Manual: Using DiskOnChip with VxWorks DiskOnChip TrueFFS SDK Product Brief DiskOnChip TrueFFS SDK Product Brief DiskOnChip DIP EVB DiskOnChip DIP Evaluation Board DiskOnChip GANG Programmer DiskOnChip 1+8 DIP GANG Programmer 91-SR-002-42-8L Rev. 3.4 20 DiskOnChip 2000 DIP How to Contact Us Internet: E-mail: USA Office: M-Systems Inc. 8371 Central Ave, Suite A Newark CA 94560 Phone: +1-510-494-2090 Fax: +1-510-494-5545 Taiwan Office: Room B, 13 F, No. 133 Sec. 3 Min Sheng East Road Taipei, Taiwan R.O.C. Tel: +886-2-8770-6226 Fax: +886-2-8770-6295 http://www.m-sys.com [email protected] China Office: 25A International Business Commercial Bldg. Nanhu Rd., Lou Hu District Shenzhen, China 518001 Phone: +86-755-519-4732 Fax: +86-755-519-4729 Europe and Israel Office: M-Systems Ltd. 7 Atir Yeda St. Kfar Saba 44425, Israel Tel: +972-9-764-5000 Fax: +972-3-548-8666 Japan Office: M-Systems Japan Inc. Arakyu Bldg., 5F 2-19-2 Nishi-Gotanda Shinagawa-ku Tokyo 141-0031 Phone: +81-3-5437-5739 Fax: +81-3-5437-5759 M-Systems assumes no responsibility for the use of the material described in this document. Information contained herein supersedes previously published specifications on this device from M-Systems. M-Systems reserves the right to change this document without notice. 91-SR-002-42-8L Rev. 3.4 21