SDINBDG4-8G

Data Sheet - Confidential DOC-56-34-01460• Rev 1.4 • August 2017 Industrial iNAND® 7250 e.MMC 5.1 with HS400 Interface Confidential, subject to all applicable non-disclosure agreements www.SanDisk.com SanDisk® iNAND 7250 e.MMC 5.1+ HS400 I/F data sheet Confidential REVISION HISTORY Doc. No Revision Date Description DOC-56-34-01460 0.1 October-2016 Preliminary version DOC-56-34-01460 0.2 January-2017 Updated tables 2, 5 and 6 DOC-56-34-01460 1.0 March-2017 Released version DOC-56-34-01460 1.1 May-2017 Updated SKU names DOC-56-34-01460 1.2 June-2017 Updated performance targets, SKU ID in ext_CSD DOC-56-34-01460 1.3 July-2017 Updated ext_CSD MAX_ENH_SIZE_MULT DOC-56-34-01460 1.4 August-2017 Updated drawing marking SanDisk® general policy does not recommend the use of its products in life support applications where in a failure or malfunction of the product may directly threaten life or injury. Per SanDisk Terms and Conditions of Sale, the user of SanDisk products in life support applications assumes all risk of such use and indemnifies SanDisk against all damages. See “Disclaimer of Liability.” This document is for information use only and is subject to change without prior notice. SanDisk assumes no responsibility for any errors that may appear in this document, nor for incidental or consequential damages resulting from the furnishing, performance or use of this material. No part of this document may be reproduced, transmitted, transcribed, stored in a retrievable manner or translated into any language or computer language, in any form or by any means, electronic, mechanical, magnetic, optical, chemical, manual or otherwise, without the prior written consent of an officer of SanDisk . SanDisk provides this information, and any related samples, products, and documentation (collectively the “Materials”) solely for the selection and use of SanDisk products. 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You are responsible for obtaining any rights required in connection with your use of the Materials. The Materials are subject to change without further notice. SanDisk assumes no obligation to correct errors or to notify you of updates to the Materials or to product specifications. You may not reverse engineer, reproduce, modify, distribute, or publicly display the Materials without prior written consent of SanDisk. SanDisk products are not designed or intended to be fail-safe or for use in any application requiring fail-safe performance. You assume sole risk and liability for use of SanDisk products in critical applications. All parts of the SanDisk documentation are protected by copyright law and all rights are reserved. SanDisk and the SanDisk logo are registered trademarks of SanDisk. Product names mentioned herein are for identification purposes only and may be trademarks and/or registered trademarks of their respective companies. Western Digital Technologies, Inc. is the seller of record and licensee in the Americas of SanDisk® products. ©2017 Western Digital Corporation or its affiliates. All rights reserved. SanDisk is a trademark of Western Digital Corporation or its affiliates, registered in the United States and other countries. All other trademarks are the property of their respective holder(s). © 2017 SanDisk – a Western Digital brand -2- DOC-56-34-01460 Confidential SanDisk® iNAND 7250 e.MMC 5.1+ HS400 I/F data sheet TABLE OF CONTENTS 1. Introduction ......................................................................................................................... 5 1.1. General Description ...................................................................................................... 5 1.2. Plug-and-Play Integration ................................................................................................. 6 1.3. Feature Overview ......................................................................................................... 7 1.4. MMC bus and Power Lines ........................................................................................... 8 1.4.1. Bus operating conditions ................................................................................................. 8 2. e.MMC Selected Features Overview ................................................................................ 10 2.1. HS400 Interface.......................................................................................................... 11 2.2. Enhanced User Data Area (EUDA) ............................................................................. 11 2.3. Extended Partitions Attribute (eGPP).......................................................................... 11 2.4. Field Firmware Upgrade (FFU) ................................................................................... 11 2.5. Cache ......................................................................................................................... 12 2.6. Discard ....................................................................................................................... 12 2.7. Power off Notifications ................................................................................................ 12 2.8. Packed Commands .................................................................................................... 12 2.9. Boot Partition .............................................................................................................. 12 2.10. RPMB Partition ........................................................................................................... 12 2.11. Automatic Sleep Mode................................................................................................ 12 2.12. Sleep (CMD5) ............................................................................................................. 13 2.13. Enhanced Reliable Write ............................................................................................ 13 2.14. Sanitize ...................................................................................................................... 13 2.15. Secure Erase .............................................................................................................. 13 2.16. Secure Trim ................................................................................................................ 14 2.17. Partition Management................................................................................................. 14 2.18. Device Health ............................................................................................................. 14 2.19. EOL Status ................................................................................................................. 14 2.20. Enhanced Write Protection ......................................................................................... 14 2.21. High Priority Interrupt (HPI)......................................................................................... 15 2.22. H/W Reset .................................................................................................................. 15 2.23. Host-Device Synchronization Flow (Enhanced STROBE) ........................................... 15 2.24. Command-Queue ....................................................................................................... 15 3. Product Specifications ..................................................................................................... 16 3.1. Typical Power Requirements ...................................................................................... 16 © 2017 SanDisk – a Western Digital brand -3- DOC-56-34-01460 Confidential SanDisk® iNAND 7250 e.MMC 5.1+ HS400 I/F data sheet 3.2. Operating Conditions .................................................................................................. 17 3.2.1. Operating and Storage Temperature Specifications ..................................................... 17 3.2.2. Moisture Sensitivity ........................................................................................................ 17 3.3. Reliability .................................................................................................................... 18 3.5. Typical System Performance ...................................................................................... 19 4. Physical Specifications .................................................................................................... 20 5. Interface Description......................................................................................................... 22 5.1. MMC I/F Ball Array ..................................................................................................... 22 5.2. Pins and Signal Description ........................................................................................ 23 5.3. Registers value ........................................................................................................... 24 5.3.1. OCR Register................................................................................................................. 24 5.3.2. CID Register .................................................................................................................. 24 5.3.3. DSR Register ................................................................................................................. 24 5.3.4. CSD Register ................................................................................................................. 25 5.3.5. EXT_CSD Register ........................................................................................................ 26 5.4. User Density ............................................................................................................... 31 6. HW Application Guidelines ............................................................................................... 32 6.1. Design Guidelines ...................................................................................................... 32 6.2. Capacitor Selection & Layout Guidelines .................................................................... 33 6.3. Reference Schematics................................................................................................ 35 7. Propriety iNAND 7250 feature overview .......................................................................... 36 7.1. Smart Partitioning ....................................................................................................... 36 7.2. Manual Refresh .......................................................................................................... 36 7.3. Boot & RPMB resize ................................................................................................... 36 7.4. One Time Programmable Register for Custom ID....................................................... 37 7.5. Device Report & Advanced Health Status................................................................... 37 7.5.1. Device Report fields ....................................................................................................... 37 7.5.2. Advanced Health Status Fields...................................................................................... 38 7.6. Power-Loss indications ............................................................................................... 39 7.6.1. Unstable Power-Supply indications ............................................................................... 39 8. Marking .............................................................................................................................. 44 9. Ordering Information ........................................................................................................ 45 How to Contact Us .................................................................................................................. 46 © 2017 SanDisk – a Western Digital brand -4- DOC-56-34-01460 Confidential DOC-56-34-01460 SanDisk iNAND 7250 e.MMC 5.1 HS400 I/F data sheet 1. INTRODUCTION 1.1. General Description Overview The SanDisk® Industrial iNAND 7250 is an Embedded Flash Drive (EFD) designed for connected devices in Industrial, Industrial IoT, and other IoT applications. This includes applications such as security cameras, commercial drones, networking equipment, IoT gateways, system on modules (SOM), and others. The Industrial iNAND 7250 enables manufacturers to bring the benefits of flash rapid boot-up, high reliability, robustness, consistent performance as well as many proprietary features to these new applications. The Industrial iNAND 7250 utilizes an LDPC ECC engine and MLC memory to provide a robust, high performance, high quality and high endurance product. The LDPC engine significantly improves error correction capabilities enabling longer device lifetime and an increased ability to handle operations at high temperature. The MLC memory is optimized versus standard MLC memory to offer better endurance over the life of the memory, providing more design margin, and also leading to a lower uncorrectable bit-error rate (UBER) at any given point over the life of the device. The SanDisk Industrial iNAND 7250 was designed with a specific focus on the Industrial market. All SanDisk Industrial grade products go through extensive testing, and are part of a long-term, stable roadmap, reducing the complexity and number of qualification cycles that a manufacturer may need to perform. The Industrial iNAND 7250 is qualified to temperature ranges from -40oC up to 85oC ambient. The Industrial iNAND 7250 is available from 8GB to 64GB of capacity and supports the e.MMC 5.1 interface. Highlighted features include extended operating temperature support, advanced health status, automatic and manual data refresh, RPMB and Boot partition resize, flexible EUDA and fast boot mode. Data reliability and product life is improved significantly by the internal refresh feature combined with MLC memory and LDPC ECC engine. Industrial iNAND 7250 also provides 3.3V IO support for legacy designs and hence is suitable for upgrading old systems. Architecture The Industrial iNAND 7250 combines an embedded flash controller with Multilevel Cell NAND flash technology enhanced by SanDisk’s embedded flash management software running as firmware on the flash controller. Industrial iNAND 7250 employs an industrystandard e.MMC 5.1 interface featuring Command-Queue, HS400 interface, FFU, as well as legacy e.MMC 4.51 features such as power off notifications, packed commands, Cache, boot / RPMB partitions, HPI, and HW reset, making it an optimal device for both reliable code and data storage. Like other SanDisk iNAND products, the Industrial iNAND 7250 offers plug-and-play integration and support for multiple NAND technology transitions. The Industrial iNAND 7250 architecture and embedded firmware fully emulates a hard disk to the host processor, enabling read/write operations that are identical to a standard, sectorbased hard drive. In addition, SanDisk firmware employs patented methods, such as virtual © 2017 SanDisk – a Western Digital brand -5- DOC-56-34-01460 mapping, dynamic and static wear-leveling, and automatic block management to ensure high data reliability and maximizing flash life expectancy. The Industrial iNAND 7250 also includes an intelligent controller, which manages interface protocols, data storage and retrieval, error correction code (ECC) algorithms, defect handling and diagnostics, power management and clock control. Combining high performance with features for easy integration and exceptional reliability, the Industrial iNAND 7250 is an EFD designed to exceed the demands of both manufacturers and their customers. 1.2. Plug-and-Play Integration iNAND’s optimized architecture eliminates the need for complicated software integration and testing processes thereby enabling plug-and-play integration into the host system. The replacement of one iNAND device with another of a newer generation requires virtually no changes to the host. This allows manufacturers to adopt advanced NAND Flash technologies and update product lines with minimal integration or qualification efforts. The Industrial iNAND 7250 features a MMC interface that allows for easy integration regardless of the host (chipset) type used. All device and interface configuration data (such as maximum frequency and device identification) are stored on the device. With JEDEC compatible form factors measuring 11.5x13mm (153 balls) for all capacities, the Industrial iNAND 7250 is ideally suited for a wide variety of Industrial subsystems where PCB space may be limited. Figure 1 shows a block diagram of the SanDisk Industrial iNAND 7250 with MMC Interface. SanDisk iNAND MMC Bus Interface Single Chip controller Data In/Out Flash Memory Control Figure 1 - SanDisk Industrial iNAND 7250 with MMC Interface Block Diagram © 2017 SanDisk – a Western Digital brand -6- DOC-56-34-01460 1.3. Feature Overview SanDisk Industrial iNAND 7250, with MMC interface, includes the following features:  Memory controller and NAND flash  Mechanical design that complies with JEDEC Specifications with specific optimizations for industrial applications  Offered in three TFBGA packages of e.MMC 5.1 o 11.5mm x 13mm x 0.8mm (8GB-16GB) o 11.5mm x 13mm x 1.0mm (32GB) o 11.5mm x 13mm x 1.2mm (64GB)  Operating temperature range: –25°C to +85°C and –40°C to +85°C ambient  Dual power system  Core voltage (VCC) 2.7-3.6 V  I/O (VCCQ) voltage, either: 1.7-1.95V or 2.7-3.6V  8GB - 64GB of data storage  Supports three data bus widths: 1bit (default), 4bit, 8bit  Complies with e.MMC Specification Ver. 5.1 HS400  Variable clock frequencies of 0-20 MHz, 0-26 MHz (default), 0-52 MHz (high-speed), 0-200 MHz SDR (HS200), 0-200 MHz DDR (HS400)  Up to 400 MB/sec bus transfer rate, using 8 parallel data lines at 200 MHz, HS400 Mode  High data integrity with MLC memory, advanced LDPC ECC engine, automatic and manual refresh  Advanced health status, fast boot, flexible EUDA, smart partitioning  Up to 3K P/E cycles on MLC and 30K P/E cycles on SLC with 1 year data retention @ 55°C and at least 10 year data retention @ 55°C for fresh devices © 2017 SanDisk – a Western Digital brand -7- DOC-56-34-01460 1.4. MMC bus and Power Lines SanDisk iNAND 7250 supports the MMC interface protocol. For more details regarding these buses refer to JEDEC standard No. JESD84-B51. The iNAND bus has the following communication and power lines:  CMD: Command is a bidirectional signal. The host and iNAND operate in two modes, open drain and push-pull.  DAT0-7: Data lines are bidirectional signals. Host and iNAND operate in push-pull mode.  CLK: Clock input.  RST_n: Hardware Reset Input.  VCCQ: Power supply line for host interface.  VCC: Power supply line for internal flash memory.  VDDi: iNAND’s internal power node, not the power supply. Connect 0.1uF capacitor from VDDi to ground.  VSS, VSSQ: Ground lines.  RCLK: Data strobe.  VSF: Vendor specific functions used for debugging purposes. 1.4.1. Bus operating conditions Table 1 - Bus operating conditions Parameter Min Max Unit Peak voltage on all lines -0.5 VCCQ+0.5 V Input Leakage Current (before initializing and/or connecting the internal pull-up resistors) -100 100 µA Input Leakage Current (after changing the bus width and disconnecting the internal pull-up resistors) -2 2 µA Output Leakage Current (before initializing and/or connecting the internal pull-up resistors) -100 100 µA -2 2 µA Output Leakage Current (after changing the bus width and disconnecting the internal pull-up resistors) © 2017 SanDisk – a Western Digital brand -8- DOC-56-34-01460 Table 2 – Power supply voltage Parameter Supply Voltage © 2017 SanDisk – a Western Digital brand Symbol Min Max Unit VCCQ (Low) 1.7 1.95 V VCCQ (High) 2.7 3.6 V VCC 2.7 3.6 V VSS-VSSQ -0.3 0.3 V -9- DOC-56-34-01460 2. E.MMC SELECTED FEATURES OVERVIEW Industrial iNAND 7250 supported feature list: Table 3 – Proprietary Features list e.MMC N/A N/A 4.41 4.41 4.41 4.41 4.41 4.41 4.41 4.41 4.5 4.5 4.5 4.5 4.5 4.5 4.5 4.5 5.0 5.0 5.0 5.1 5.1 5.1 5.1 5.1 5.1 5.1 Proprietary Proprietary Proprietary Proprietary Proprietary Proprietary Proprietary Proprietary Proprietary Device Features INTERFACE BUS SPEED SECURE ERASE/TRIM BOOT AND MASS STORAGE PARTITIONING & PROTECTION BACKGROUND OPERATIONS POWER OFF NOTIFICATION HARDWARE RESET HPI RPMB EXTENDED PARTITION ATTRIBUTE LARGE SECTOR SIZE SANITIZE (4.51) PACKED COMMANDS DISCARD DATA TAG CONTEXT MANAGEMENT CACHE FIELD FIRMWARE UPGRADE (FFU) PRODUCTION STATE AWARENESS DEVICE HEALTH ENHANCE STROBE COMMAND QUEUE RPMB THROUGHPUT CACHE FLUSH AND BARRIER BKOPS CONTROLLER SECURE WP EUDA VSF PNM DEVICE REPORT BOOT PARTITION RESIZE RPMB RESIZE MANUAL READ SCRUB QUICK MOUNT AUTOMATIC READ REFRESH ADVANCED HEALTH STATUS Benefit Speed Max theoretical Speed “True Wipe” One storage device (reduced BOM) Flexibility Better User Experience (low latency) Faster Boot; Responsiveness Robust System Design Control Long Reads/Writes Secure Folders Flexibility Potential performance “True Wipe” Reduce Host Overhead Improved Performance on Full Media Performance and/or Reliability Performance and/or Reliability Better Sequential & Random Writes Enables feature enhancements in the field Different operation during production Vital NAND info Sync between Device and Host in HS400 Responsiveness Faster RPMB write throughput Ordered Cache flushing Host control on BKOPs Secure Write Protect Enhanced User Data Area Enable on-board debugging Special product name Device Firmware status User configurable boot partition User configurable RPMB partition Host initiated refresh Fast boot to all user partitions Automatic scans to detect blocks for refresh Includes PE cycles in % per partition, temperature Proprietary UNIFIED BOOT Reports both boot partitions Proprietary HARDWARE PIN SECURE BOOT Enable Hardware pin secure write protect © 2017 SanDisk – a Western Digital brand - 10 - Support HS400 Up to 400MB/s Yes Yes Yes Yes Yes Yes Yes Yes Yes No Yes Yes Yes Yes (API only) Yes (API only) Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes (only on QS2.2) Yes (only on QS2.2) DOC-56-34-01460 2.1. HS400 Interface Industrial iNAND 7250 supports HS400 signaling to achieve a bus speed of 400 MB/s via a 200MHz dual data rate clock frequency. HS400 mode supports 4 or 8 bit bus width and the 1.7 – 1.95 VCCQ option. Due to the speed, the host may need to have an adjustable sampling point to reliably receive the incoming data. For additional information please refer to JESD84-B51 standard. 2.2. Enhanced User Data Area (EUDA) For write intensive applications, there is a need for an area of higher endurance or performance. To address this, Industrial iNAND 7250 allows for the definition of an enhanced user data area as specified in the JESD84-B51 standard. This area is a true SLC partition. The EUDA is a designated area of the general User Data Area. The configuration is one-time programmable. This is NOT recommended for data that has long retention needs. For OS type data, see section: 2.3 Extended Partitions Attribute for further information. For additional information please refer to the SanDisk application note on this subject. 2.3. Extended Partitions Attribute (eGPP) When a device is used as a boot device, the boot code, the operating system code, and any highly secure information is generally rarely written, but needs to be reliably retained for the lifetime of the device. For this purpose, Industrial iNAND 7250 utilizes the System Code Extended Partitions Attribute as specified in the JESD84-B51 standard. This area is a true SLC partition. This is NOT recommended for write intensive application usage. For high endurance needs, see section: 2.2 Enhanced User Data Area for further information. For additional information please refer to the SanDisk application note on this subject. 2.4. Field Firmware Upgrade (FFU) Field Firmware Updates (FFU) enables features enhancement in the field. Using this mechanism, the host downloads a new version of the firmware to the e.MMC device and instructs the e.MMC device to install the new downloaded firmware into the device. The entire FFU process occurs in the background without affecting the user/OS data. During the FFU process, the host can replace firmware files or single/all file systems. The secure FFU (sFFU) usage model for firmware upgrades is as follows: 1. sFFU files are generated and signed at the SanDisk lab 2. The sFFU files are handed to SanDisk’s customer 3. SanDisk’s customer can push the firmware updates to their end-users in a transparent way Note 1: The sFFU process and sFFU files are protected against leakage to unauthorized entities. © 2017 SanDisk – a Western Digital brand - 11 - DOC-56-34-01460 Note 2: During the sFFU process the Host may retrieve the exact status of the process using the smart report feature. For additional information please refer to JESD84-B51 standard and the SanDisk application note on this subject. 2.5. Cache The eMMC cache is dedicated volatile memory at the size of 512KB. Caching enables to improve iNAND performance for both sequential and random access. For additional information please refer to JESD84-B51 standard. 2.6. Discard iNAND supports discard command as defined in e.MMC 5.1 spec. This command allows the host to identify data which is not needed, without requiring the device to remove the data from the Media. It is highly recommended for use to guarantee optimal performance of iNAND and reduce amount of housekeeping operation. 2.7. Power off Notifications iNAND supports power off notifications as defined in e.MMC 5.1 spec. The usage of power off notifications allows the device to prepare itself to power off, and improve user experience during power-on. Note that the device may be set into sleep mode while power off notification is enabled. Power off notification long allows the device to shutdown properly and save important data for fast boot time on the next power cycle. 2.8. Packed Commands To enable optimal system performance, iNAND supports packed commands as defined in e.MMC 5.1 spec. It allows the host to pack Read or Write commands into groups (of single type of operation) and transfer these to the device in a single transfer on the bus. Thus, it allows reducing overall bus overheads. 2.9. Boot Partition iNAND supports e.MMC 5.1 boot operation mode: Factory configuration supplies two boot partitions each 4MB in size for 8GB-64GB. This can be expanded to up to 31.875 MB by resizing the boot partitions. See section 7.3 Boot & RPMB resize for further information. 2.10. RPMB Partition iNAND supports e.MMC 5.1 RPMB operation mode: Factory configuration supplies one RPMB partition 4MB in size for 8GB-64GB. This can be expanded to up to 16 MB by resizing the RPMB partition. See section: See section 7.3 Boot & RPMB resize for further information. 2.11. Automatic Sleep Mode A unique feature of iNAND is automatic entrance and exit from sleep mode. Upon completion of an operation, iNAND enters sleep mode to conserve power if no further commands are received. The host does not have to take any action for this to occur, however, in order to © 2017 SanDisk – a Western Digital brand - 12 - DOC-56-34-01460 achieve the lowest sleep current, the host needs to shut down its clock to the memory device. In most systems, embedded devices are in sleep mode except when accessed by the host, thus conserving power. When the host is ready to access a memory device in sleep mode, any command issued to it will cause it to exit sleep and respond immediately. 2.12. Sleep (CMD5) An iNAND 7250 device may be switched between a Sleep and a Standby state using the SLEEP/AWAKE (CMD5). In the Sleep state the power consumption of the memory device is minimized and the memory device reacts only to the commands RESET (CMD0) and SLEEP/AWAKE (CMD5). All the other commands are ignored by the memory device. The VCC power supply may be switched off in Sleep state to enable even further system power consumption saving. For additional information please refer to JESD84-B51. 2.13. Enhanced Reliable Write iNAND 7250 supports enhanced reliable write as defined in e.MMC 5.1 spec. Enhanced reliable write is a special write mode in which the old data pointed to by a logical address must remain unchanged until the new data written to same logical address has been successfully programmed. This is to ensure that the target address updated by the reliable write transaction never contains undefined data. When writing in reliable write, data will remain valid even if a sudden power loss occurs during programming. 2.14. Sanitize The Sanitize operation is used to remove data from the device. The use of the Sanitize operation requires the device to physically remove data from the unmapped user address space. The device will continue the sanitize operation, with busy asserted, until one of the following events occurs:     Sanitize operation is complete HPI is used to abort the operation Power failure Hardware reset After the sanitize operation is complete no data should exist in the unmapped host address space 2.15. Secure Erase For backward compatibility reasons, in addition to the standard erase command the iNAND 7250 supports the optional Secure Erase command. This command allows the host to erase the provided range of LBAs and ensure no older copies of this data exist in the flash. © 2017 SanDisk – a Western Digital brand - 13 - DOC-56-34-01460 2.16. Secure Trim For backward compatibility reasons, iNAND 7250 support Secure Trim command. The Secure Trim command is similar to the Secure Erase command but performs a secure purge operation on write blocks instead of erase groups. The secure trim command is performed in two steps: 1) Mark the LBA range as candidate for erase 2) Erase the marked address range and ensure no old copies are left 2.17. Partition Management iNAND 7250 offers the possibility for the host to configure additional split local memory partitions with independent addressable space starting from logical address 0x00000000 for different usage models. Therefore memory block area can be classified as follows Factory configuration supplies two boot partitions (refer to section 2.9) implemented as enhanced storage media and one RPMB partitioning of 4MB in size (refer to section 2.10). Up to four General Purpose Area Partitions can be configured to store user data or sensitive data, or for other host usage models. The size of these partitions is a multiple of the write protect group. Size can be programmed once in device life-cycle (one-time programmable). 2.18. Device Health Device Health is similar to SMART features of modern hard disks, it provides only vital NAND flash program/erase cycles information in percentage of useful flash life span. The host can query Device Health information utilizing standard MMC command, to get the extended CSD structure:  DEVICE_LIFE_TIME_EST_TYP_A[268], The host may use it to query SLC device health information  DEVICE_LIFE_TIME_EST_TYP_B[269], The host may use it to query MLC device health information The device health feature will provide a % of the wear of the device in 10% fragments. 2.19. EOL Status EOL status is implemented according to the eMMC 5.1 spec. One additional state (state 4) was added to INAND 7250 which indicates that the device is in EOL mode. 2.20. Enhanced Write Protection To allow the host to protect data against erase or write iNAND 7250 supports two levels of write protect command. The entire iNAND 7250 (including the Boot Area Partitions, General Purpose Area Partition, and User Area Partition) may be write-protected by setting the permanent or temporary write protect bits in the CSD Specific segments of iNAND 7250 may be permanently, power-on or temporarily write protected. Segment size can be programmed via the EXT_CSD register. For additional information please refer to the JESD84-B51 standard. © 2017 SanDisk – a Western Digital brand - 14 - DOC-56-34-01460 2.21. High Priority Interrupt (HPI) The operating system usually uses demand-paging to launch a process requested by the user. If the host needs to fetch pages while in a middle of a write operation the request will be delayed until the completion of the write command. The high priority interrupt (HPI) as defined in JESD84-B51 enables low read latency operation by suspending a lower priority operation before it is actually completed. For additional information on the HPI function, refer to JESD84-B51. 2.22. H/W Reset Hardware reset may be used by host to reset the device, moving the device to a Pre-idle state and disabling the power-on period write protect on blocks that were power-on write protected before the reset was asserted. For more information, refer to JESD84-B51 standard. 2.23. Host-Device Synchronization Flow (Enhanced STROBE) The Enhanced STROBE feature as implemented in iNAND 7250 allows utilizing STROBE to synchronize also the CMD response:     CMD clocking stays SDR (similar to legacy DDR52) Host commands are clocked out with the rising edge of the host clock (as done in legacy eMMC devices) iNAND 7250 will provide STROBE signaling synced with the CMD response in addition to DATA Out Host may use the STROBE signaling for DAT and CMD-Response capturing eliminating the need for a tuning mechanism This feature requires support by the host to enable faster and more reliable operation. 2.24. Command-Queue e.MMC Command Queue enables device visibility of next commands and allows performance improvement. The protocol allows the host to queue up to 32 data-transfer commands in the device by implementing 5 new commands. The benefits of command queuing are:     Random Read performance improvement (higher IOPs) Reducing protocol overhead Command issuance allowed while data transfer is on-going Device order the tasks according to best access to/from flash © 2017 SanDisk – a Western Digital brand - 15 - DOC-56-34-01460 3. PRODUCT SPECIFICATIONS 3.1. Typical Power Requirements Table 4 – iNAND 7250 Power Consumption Sleep (Ta=25°C@1.8V/3.3V) 8GB 16GB 32GB 64GB Units HS400 Sleep (CMD5 – VCCQ, VCC off) 150 150 150 150 uA HS200 Sleep (CMD5 – VCCQ, VCC off) 150 150 150 150 uA DDR52 Sleep (CMD5 – VCCQ, VCC off) 150 150 150 150 uA Table 5 – iNAND 7250, Power Consumption Peak VCC / VCCQ (Ta=25°C@1.8V/3.3V) Peak [2µs window] VCC 8GB 16GB 32GB 64GB Units 150 230 400 400 mA 295 295 325 365 mA Active HS400 Peak [2µs window] VCCQ Active Peak [2µs window] VCC 150 230 400 400 mA HS200 Peak [2µs window] VCCQ 210 210 240 260 mA Active Peak [2µs window] VCC 150 230 400 400 mA DDR52 Peak [2µs window] VCCQ 200/165 1 2 3 3 200/175 230/195 3 mA 250/200 Table 6 - iNAND 7250, Power Consumption RMS VCC / VCCQ (Ta=25°C@1.8V/3.3V) Read Active HS400 Write Read Active HS200 Write Read Active DDR52 Write 8GB 16GB 32GB 64GB Units RMS [100ms window] VCC 60 60 60 60 mA RMS [100ms window] VCCQ 245 245 275 300 mA RMS [100ms window] VCC 45 85 150 160 mA RMS [100ms window] VCCQ 135 155 195 220 mA RMS [100ms window] VCC 50 50 50 50 mA RMS [100ms window] VCCQ 145 145 165 180 mA RMS [100ms window] VCC 50 75 130 140 mA RMS [100ms window] VCCQ 105 110 130 140 mA RMS [100ms window] VCC 40 40 3 40 3 40 3 mA 3 RMS [100ms window] VCCQ 110/140 110/140 115/150 130/160 mA RMS [100ms window] VCC 45 45 60 70 mA RMS [100ms window] VCCQ 3 95/100 1 The regulator must be able to supply the current as the peak value can last for up to 1ms 2 1.8V/3.3V © 2017 SanDisk – a Western Digital brand - 16 - 3 95/110 3 115/125 3 120/140 mA DOC-56-34-01460 3.2. Operating Conditions 3.2.1. Operating and Storage Temperature Specifications Table 5 – Operating and Storage Temperatures for Commercial Grade Condition Ambient Temperature (Ta) Operating -25° C to 85°C Storage -25° C to 85°C 3 Table 6 – Operating and Storage Temperatures for Extended Temperature Grade Condition Ambient Temperature (Ta) Operating -40° C to 85°C Storage -40° C to 85°C 3 3.2.2. Moisture Sensitivity The moisture sensitivity level for iNAND 7250 is MSL = 3. 3 This operating temperature should be maintained on the package case in order to achieve optimized power/performance © 2017 SanDisk – a Western Digital brand - 17 - DOC-56-34-01460 3.3. Reliability SanDisk iNAND 7250 product meets or exceeds NAND type of products Endurance and Data Retention requirements as per evaluated representative usage models for designed market and relevant sections of JESD47I standard. Table 7 - Critical Reliability Characteristics Reliability Characteristics Uncorrectable Bit Error Rate (UBER) Description Value Uncorrectable bit error rate will not exceed one sector in the specified number of bits read. In such rare events data can be lost. 1 sector in 𝟏𝟎𝟏𝟓 bits read Write Endurance Specification (TBW) Write endurance is commonly classified in Total Terabytes Written (TBW) to a device. This is the total amount of data that can be written to the device over its useful life time and depends on workload. Total Terabytes Written [TBW] measured on representative mobile workload TBW is characterized based on a representative mobile workload as described below:   8GB: 20TBW 16GB: 40TBW 32GB: 80TBW 64GB: 160TBW 70% Sequential write, 30% Random Write. Distribution of IO Transaction Sizes: o 128KB: 1.5-4%  Cache On, Packed Off Host data is 4K aligned Data Retention Specification (Years) Fresh or Early Life Device 10 years of Data Retention @ 55°C (A device whose total write cycles to the flash is less than 10% of the maximum endurance specification) Cycled Device 1 year of Data Retention @ 55°C (Any device whose total write cycles are between 10% of the maximum write endurance specification and equal to or exceed the maximum write endurance specification) © 2017 SanDisk – a Western Digital brand - 18 - DOC-56-34-01460 3.5. Typical System Performance Table 8 – Sequential Performance HS400 Write (MB/s) 40 80 160 160 8GB 16GB 32GB 64GB 45 HS200 Read (MB/s) 300 300 300 300 Write (MB/s) 40 80 125 125 DDR52 Read (MB/s) 170 170 170 170 Table 9 – Sequential Performance – EUDA HS400 Write (MB/s) 60 120 240 240 8GB 16GB 32GB 64GB Write (MB/s) 60 120 140 140 HS400 8GB 16GB 32GB 64GB DDR52 Read (MB/s) 170 170 170 170 Write (MB/s) 60 75 75 75 Write (IOPs) Read (MB/s) 90 90 90 90 67 HS200 Read (IOPs) Read (MB/s) 90 90 90 90 12 13 HS200 Read (MB/s) 300 300 300 300 Table 10 – Random Performance Write (IOPs) Write (MB/s) 40 75 75 75 DDR52 Read (IOPs) Write (IOPs) Read (IOPs) Cache ON QD=8 QD=1 Cache ON QD=8 QD=1 Cache ON QD=8 QD=1 8k 14k 14k 14k 17k 22k 22k 22k 7.8k 7.8k 7.8k 7.8k 6k 6k 6k 6k 10k 10k 10k 10k 4.5k 4.5k 4.5k 4.5k 5.5k 5.5k 5.5k 5.5k 10k 10k 10k 10k 3.5k 3.5k 3.5k 3.5k 4 Sequential Read/Write performance is measured under HS400 mode with a bus width of 8 bit at 200 MHz DDR mode, chunk size of 512KB, and data transfer of 1GB. 5 Sequential Write performance is measured for 100MB host payloads 6 Random performance is measured with a chunk size of 4KB and address range of 1GB 7 Random Write IOPs shown are with cache on © 2017 SanDisk – a Western Digital brand - 19 - DOC-56-34-01460 4. PHYSICAL SPECIFICATIONS The SanDisk iNAND 7250 is a 153-pin, thin fine-pitched ball grid array (BGA). See Figure 2 and Table 12 for physical specifications and dimensions. Figure 2 - INAND 7250 Package Outline Drawing © 2017 SanDisk – a Western Digital brand - 20 - DOC-56-34-01460 Table 11 – Package Specification 8GB-16GB 32GB 64GB Nom Max Min Nom Max Min Nom Max [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] 0.6 0.7 0.8 0.8 0.9 1 1 1.1 1.2 A1 0.17 0.22 0.27 0.17 0.22 0.27 0.17 0.22 0.27 D 11.4 11.5 11.6 11.4 11.5 11.6 11.4 11.5 11.6 E 12.9 13 13.1 12.9 13 13.1 12.9 13 13.1 D1 - 6.5 - - 6.5 - - 6.5 - E1 - 6.5 - - 6.5 - - 6.5 - e - 0.5 - - 0.5 - - 0.5 - b 0.25 0.3 0.35 0.25 0.3 0.35 0.25 0.3 0.35 Symbol Min [mm] A aaa 0.1 0.1 bbb 0.1 0.1 0.1 ddd 0.08 0.08 0.08 eee 0.15 0.15 0.15 fff 0.05 0.05 0.05 MD/ME 14/14 14/14 14/14 © 2017 SanDisk – a Western Digital brand - 21 - 0.1 DOC-56-34-01460 5. INTERFACE DESCRIPTION 5.1. MMC I/F Ball Array 11 22 33 44 55 66 77 88 99 10 10 11 11 12 12 13 13 14 14 AA NC NC DAT0 DAT1 DAT2 VSS NC NC NC NC NC NC NC NC BB NC DAT3 DAT4 DAT5 DAT6 DAT7 NC NC NC NC NC NC NC NC CC NC Vddi NC VssQ NC VccQ NC NC NC NC NC NC NC NC DD NC NC NC NC NC NC NC EE NC NC NC NC VSF2 NC NC NC FF NC NC NC VCC VSF3 NC NC NC GG NC NC NC VSS NC NC NC NC HH NC NC NC RCLK VSS NC NC NC JJ NC NC NC VSS VCC NC NC NC KK NC NC NC RESET VSF4 NC NC NC LL NC NC NC NC NC NC M M NC NC NC VccQ CMD CLK NC NC NC NC NC NC NC NC NN NC VssQ NC VccQ VssQ NC NC NC NC NC NC NC NC NC PP NC NC VccQ VssQ VccQ VssQ NC NC NC NC NC NC NC NC Index Index VCC NC VSS NC NC VSS VSF1 VCC Figure 3 - 153 balls - Ball Array (Top View) © 2017 SanDisk – a Western Digital brand - 22 - DOC-56-34-01460 5.2. Pins and Signal Description Table 13 contains the SanDisk iNAND 7250, with MMC interface (153 balls), functional pin assignment. Table 12 – Functional Pin Assignment, 153 balls Ball No. Ball Signal A3 DAT0 A4 DAT1 A5 DAT2 B2 DAT3 B3 DAT4 B4 DAT5 B5 DAT6 B6 DAT7 M5 CMD M6 CLK K5 RST_n H5 RCLK E6 VCC F5 VCC J10 VCC K9 VCC C6 VCCQ M4 VCCQ N4 VCCQ P3 VCCQ P5 VCCQ E7 VSS G5 VSS H10 VSS K8 VSS A6 VSS J5 VSS C4 VSSQ N2 VSSQ N5 VSSQ P4 VSSQ P6 VSSQ C2 VDDi E9 VSF1 E10 VSF2 F10 VSF3 K10 VSF4 Type Description I/O Data I/O: Bidirectional channel used for data transfer I/O Command: A bidirectional channel used for device initialization and command transfers. Input Clock: Each cycle directs a 1-bit transfer on the command and DAT lines Hardware Reset Output Data Strobe Supply Flash I/O and memory power supply Supply Memory controller core and MMC I/F I/O power supply Supply Flash I/O and memory ground connection Supply Memory controller core and MMC I/F ground connection Internal power node. Connect 0.1uF capacitor from VDDi to ground VSF Vendor Specific Function balls for test/debug. VSF balls should be floating and be brought out to test pads. Note: All other pins are not connected [NC] and can be connected to GND or left floating © 2017 SanDisk – a Western Digital brand - 23 - DOC-56-34-01460 5.3. Registers value 5.3.1. OCR Register Parameter DSR slice Description Value Width Access Mode [30:29] Access mode 2h 2 [23:15] VDD: 2.7 - 3.6 range 1FFh 9 [14:8] VDD: 2.0 - 2.6 range 00h 7 [7] VDD: 1.7 - 1.95 range 1h 1 Note: Bit 30 is set because the device is High Capacity; bit 31 will be set only when the device is ready. 5.3.2. CID Register Parameter DSR slice Description Value Width MMC MID [127:120] Manufacturer ID 45h 8 CBX [113:112] Card BGA 01h 2 OID [111:104] OEM/Application ID 00h 8 PNM [103:56] Product name 8GB – DG4008 16GB – DG4016 32GB – DG4032 64GB – DG4064 48 PRV [55:48] Product revision 01h 8 PSN [47:16] Product serial number Random by Production 32 MDT [15:8] Manufacturing date month, year 8 CRC [7:1] Calculated CRC CRC7 Generator 7 Note: Please refer to the definition of the MDT field as defined in e.MMC Spec version 5.0. 5.3.3. DSR Register Parameter DSR slice Description Value Width RSRVD [15:8] Reserved 04h 8 RSRVD [7:0] Reserved 04h 8 Note: DSR is not implemented; in case of read, a value of 0x0404 will be returned. © 2017 SanDisk – a Western Digital brand - 24 - DOC-56-34-01460 5.3.4. CSD Register Parameter CSD Slice Description Value Width CSD_STRUCTURE [127:126] CSD structure 3h 3 SPEC_VERS [125:122] System specification version 4h 4 TAAC [119:112] Data read access-time 1 0Fh 8 NSAC [111:104] Data read access-time 2 in CLK cycles (NSAC*100) 00h 8 TRAN_SPEED [103:96] Max. bus clock frequency 32h 8 CCC [95:84] Card command classes 8F5h 12 READ_BL_LEN [83:80] Max. read data block length 9h 4 READ_BL_PARTIAL [79:79] Partial blocks for read allowed 0h 1 WRITE_BLK_MISALIGN [78:78] Write block misalignment 0h 1 READ_BLK_MISALIGN [77:77] Read block misalignment 0h 1 DSR_IMP [76:76] DSR implemented 0h 1 *C_SIZE [73:62] Device size FFFh 12 VDD_R_CURR_MIN [61:59] Max. read current @ VDD min 7h 3 VDD_R_CURR_MAX [58:56] Max. read current @ VDD max 7h 3 VDD_W_CURR_MIN [55:53] Max. write current @ VDD min 7h 3 VDD_W_CURR_MAX [52:50] Max. write current @ VDD max 7h 3 C_SIZE_MULT [49:47] Device size multiplier 7h 3 ERASE_GRP_SIZE [46:42] Erase group size 1Fh 5 ERASE_GRP_MULT [41:37] Erase group size multiplier 1Fh 5 WP_GRP_SIZE [36:32] Write protect group size 0Fh 5 WP_GRP_ENABLE [31:31] Write protect group enable 1h 1 DEFAULT_ECC [30:29] Manufacturer default 0h 2 R2W_FACTOR [28:26] Write speed factor 2h 3 WRITE_BL_LEN [25:22] Max. write data block length 9h 4 WRITE_BL_PARTIAL [21:21] Partial blocks for write allowed 0h 1 CONTENT_PROT_APP [16:16] Content protection application 0h 1 FILE_FORMAT_GRP [15:15] File format group 0h 1 COPY [14:14] Copy flag (OTP) 1h 1 PERM_WRITE_PROTECT [13:13] Permanent write protection 0h 1 TMP_WRITE_PROTECT [12:12] Temporary write protection 0h 1 FILE_FORMAT [11:10] File format 0h 2 ECC [9:8] ECC code 0h 2 CRC [7:1] Calculated CRC CRC7 Generator 7 © 2017 SanDisk – a Western Digital brand - 25 - DOC-56-34-01460 5.3.5. EXT_CSD Register Parameter ECSD slice Description Value S_CMD_SET [504] Supported Command Sets 1h HPI_FEATURES [503] HPI Features 1h BKOPS_SUPPORT [502] Background operations support 1h MAX_PACKED_READS [501] Max packed read commands 3Fh MAX_PACKED_WRITES [500] Max packed write commands 3Fh DATA_TAG_SUPPORT [499] Data Tag Support 1h TAG_UNIT_SIZE [498] Tag Unit Size 3h TAG_RES_SIZE [497] Tag Resources Size 3h CONTEXT_CAPABILITIES [496] Context management capabilities 5h LARGE_UNIT_SIZE_M1 [495] Large Unit size 0h EXT_SUPPORT [494] Extended partitions attribute support 3h SUPPORTED_MODES [493] FFU supported modes 3h FFU_FEATURES [492] FFU features 0h OPERATION_CODES_TIMEO UT [491] Operation codes timeout FFU_ARG BARRIER_SUPPORT [490:487] FFU Argument 0h [486] Cache barrier support 1h CMDQ_SUPPORT [308] Command queue support 1h CMDQ_DEPTH [307] Command queue depth 1Fh NUMBER_OF_FW_SECTORS _CORRECTLY_PROGRAMME D [305:302] Number of FW sectors correctly programmed VENDOR_PROPRIETARY_HE ALTH_REPORT [301:270] DEVICE_LIFE_TIME_EST_TYP _B [269] DEVICE_LIFE_TIME_EST_TYP _A [268] PRE_EOL_INFO [267] Pre EOL information 1h OPTIMAL_READ_SIZE [266] Optimal read size 8h OPTIMAL_WRITE_SIZE [265] Optimal write size 8h OPTIMAL_TRIM_UNIT_SIZE [264] Optimal trim unit size 8h DEVICE_VERSION [263:262] Device version 5025h FIRMWARE_VERSION [261:254] Firmware version FW Version PWR_CL_DDR_200_360 [253] Power class for 200MHz, DDR at VCC= 3.6V DDh CACHE_SIZE [252:249] Cache size 1000h GENERIC_CMD6_TIME [248] Generic CMD6 timeout 19h POWER_OFF_LONG_TIME [247] Power off notification(long) timeout 19h BKOPS_STATUS [246] Background operations status Default = 0h 10h 0h Vendor proprietary health report 0h Device life time estimation type B (MLC) 1h Device life time estimation type A (SLC) 1h © 2017 SanDisk – a Western Digital brand - 26 - DOC-56-34-01460 Parameter ECSD slice Description CORRECTLY_PRG_SECTORS_ NUM [245:242] Number of correctly programmed sectors INI_TIMEOUT_AP [241] 1st Initialization time after partitioning 5Ah CACHE_FLUSH_POLICY [240] Cache Flush Policy 1h PWR_CL_DDR_52_360 [239] Power class for 52MHz, DDR at VCC = 3.6V 0h PWR_CL_DDR_52_195 [238] Power class for 52MHz, DDR at VCC = 1.95V DDh PWR_CL_200_195 [237] Power class for 200MHz at VCCQ =1.95V, VCC = 3.6V DDh Power class for 200MHz, at VCCQ =1.3V, VCC = 3.6V 0h Minimum Write Performance for 8bit at 52MHz in DDR mode 0h Minimum Read Performance for 8bit at 52MHz in DDR mode 0h PWR_CL_200_130 MIN_PERF_DDR_W_8_52 MIN_PERF_DDR_R_8_52 Value Default = 0h [236] [235] [234] TRIM _MULT [232] TRIM Multiplier 3h SEC_FEATURE_SUPPORT [231] Secure Feature support 55h SEC_ERASE_MULT [230] Secure Erase Multiplier A6h SEC_TRIM_MULT [229] Secure TRIM Multiplier A6h BOOT_INFO [228] Boot Information 7h BOOT_SIZE_MULT [226] Boot partition size 20h ACCESS_SIZE [225] Access size 8h HC_ERASE_GROUP_SIZE [224] High Capacity Erase unit size 1h (see WP group size table below) ERASE_TIMEOUT_MULT [223] High capacity erase time out 3h REL_WR_SEC_C [222] Reliable write sector count 1h HC_WP_GRP_SIZE [221] High capacity write protect group size 10h (see WP group size table below) S_C_VCC [220] Sleep current [VCC] 8GB – 5h 16GB – 6h 32GB – 7h 64GB – 8h S_C_VCCQ [219] Sleep current [VCCQ] 7h PRODUCTION_STATE_AWAR ENESS_TIMEOUT [218] Production state awareness timeout S_A_TIMEOUT SLEEP_NOTIFICATION_TIME [217] Sleep/Awake time out 12h [216] Sleep notification timeout 17h SEC_COUNT [215:212] Sector count See exported capacity table below SECURE_WP_INFO [211] Secure Write Protect Info 1h MIN_PERF_W_8_52 [210] Minimum Write Performance for 8bit @52MHz Ah MIN_PERF_R_8_52 [209] Minimum Read Performance for 8bit @52MHz Ah 17h © 2017 SanDisk – a Western Digital brand - 27 - DOC-56-34-01460 Parameter ECSD slice Description Value MIN_PERF_W_8_26_4_52 [208] Minimum Write Performance for 4bit @52MHz or 8bit @26MHz Ah Minimum Read Performance for 4bit @52MHz or 8bit @26MHz Ah MIN_PERF_R_8_26_4_52 [207] MIN_PERF_W_4_26 [206] Minimum Write Performance for 4bit @26MHz Ah MIN_PERF_R_4_26 [205] Minimum Read Performance for 4bit @26MHz Ah PWR_CL_26_360 [203] Power Class for 26MHz @ 3.6V 0h PWR_CL_52_360 [202] Power Class for 52MHz @ 3.6V 0h PWR_CL_26_195 [201] Power Class for 26MHz @ 1.95V DDh PWR_CL_52_195 [200] Power Class for 52MHz @ 1.95V 0h PARTITION_SWITCH_TIME [199] Partition switching timing 3h OUT_OF_INTERRUPT_TIME [198] Out-of-interrupt busy timing 19h DRIVER_STRENGTH [197] I/O Driver Strength 1Fh CARD_TYPE [196:195] Card Type 57h CSD_STRUCTURE [194] CSD Structure Version 2h EXT_CSD_REV [192] Extended CSD Revision 8h CMD_SET [191] Command Set Default = 0h Updated in runtime CMD_SET_REV [189] Command Set Revision 0h POWER_CLASS [187] Power Class Dh HS_TIMING [185] High Speed Interface Timing Default = 0h Updated in runtime by the host DATA_STRB_MODE_SUPPOR T [184] Data strobe mode support 1h BUS_WIDTH [183] Bus Width Mode Default = 0h Updated in runtime by the host ERASE_MEM_CONT [181] Content of explicit erased memory range 0h PARTITION_CONFIG [179] Partition Configuration Default = 0h Updated in runtime by the host BOOT_CONFIG_PROT [178] Boot config protection Default = 0h Updated in runtime by the host BOOT_BUS_CONDITIONS [177] Boot bus width1 Default = 0h Updated in runtime by the host ERASE_GROUP_DEF [175] High-density erase group definition Default = 0h Updated in runtime by the host BOOT_WP_STATUS [174] Boot write protection status registers Default = 0h Updated in runtime BOOT_WP [173] Boot area write protect register 0h USER_WP [171] User area write protect register 0h FW_CONFIG [169] FW Configuration 0h © 2017 SanDisk – a Western Digital brand - 28 - DOC-56-34-01460 Parameter ECSD slice Description Value RPMB_SIZE_MULT [168] RPMB Size 20h WR_REL_SET [167] Write reliability setting register 1Fh WR_REL_PARAM [166] [165] Write reliability parameter register Start Sanitize operation 15h SANITIZE_START Default = 0h Updated in runtime by the host BKOPS_START [164] Manually start background operations Default = 0h Updated in runtime by the host BKOPS_EN [163] Enable background operations handshake 2h RST_n_FUNCTION [162] H/W reset function Default = 0h Updated by the host HPI_MGMT [161] HPI management Default = 0h Updated by the host PARTITIONING SUPPORT [160] Partitioning support 7h MAX_ENH_SIZE_MULT [159:157] Max Enhanced Area Size 8GB – 1B5h 16GB – 383h 32GB – 6FFh 64GB – E47h PARTITIONS_ATTRIBUTE [156] Partitions Attribute Default = 0h Updated by the host PARTITION_SETTING_ [155] Partitioning Setting COMPLETED Default = 0h Updated by the host GP_SIZE_MULT [154:143] General Purpose Partition Size (GP4) 0h GP_SIZE_MULT [151:149] General Purpose Partition Size (GP3) 0h GP_SIZE_MULT [148:146] General Purpose Partition Size (GP2) 0h GP_SIZE_MULT [145:143] General Purpose Partition Size (GP1) 0h ENH_SIZE_MULT [142:140] Enhanced User Data Area Size 0h ENH_START_ADDR [139:136] Enhanced User Data Start Address 0h SEC_BAD_BLK_MGMNT [134] Bad Block Management mode 0h PRODUCTION_STATE_AWAR ENESS [133] Production state awareness TCASE_SUPPORT [132] Package Case Temperature is controlled 0h PERIODIC_WAKEUP [131] Periodic Wake-up 0h PROGRAM_CID_CSD_DDR_S UPPORT [130] Program CID/CSD in DDR mode support 1h VENDOR_SPECIFIC_FIELD [127:87] Vendor Specific Fields Reserved PWR_CL_DDR_266 [86] Maximum power class for HS533 0h CARD_TYPE_2ND_INDEX [84] Device HS533 support 0h VENDOR_SPECIFIC_FIELD [83:81] Vendor Specific Fields Reserved SKU_FEATURES_ID [80] 7250 SKU identification 3h VENDOR_SPECIFIC_FIELD [79:64] Vendor Specific Fields Reserved 0h © 2017 SanDisk – a Western Digital brand - 29 - DOC-56-34-01460 Parameter ECSD slice Description Value NATIVE_SECTOR_SIZE [63] Native sector size 0h USE_NATIVE_SECTOR [62] Sector size emulation 0h DATA_SECTOR_SIZE [61] Sector size 0h INI_TIMEOUT_EMU [60] 1st initialization after disabling sector size emulation Ah CLASS_6_CTRL [59] Class 6 commands control 0h DYNCAP_NEEDED [58] Number of addressed group to be Released 0h EXCEPTION_EVENTS_CTRL [57:56] Exception events control 0h EXCEPTION_EVENTS_STATU S [55:54] Exception events status 0h EXT_PARTITIONS_ATTRIBUT E [53:52] Extended Partitions Attribute 0h CONTEXT_CONF [51:37] Context configuration Default = 0h PACKED_COMMAND_STATU S [36] Packed command status Default = 0h PACKED_FAILURE_INDEX [35] Updated in runtime Packed command failure index Default = 0h Updated in runtime POWER_OFF_NOTIFICATION [34] Power Off Notification Default = 0h Updated in runtime by the host CACHE_CTRL [33] Control to turn the Cache ON/OFF 0h FLUSH_CACHE BARRIER_CTRL [32] Flushing of the cache 0h [31] Cache barrier 0h MODE_CONFIG [30] Mode config 0h MODE_OPERATION_CODES [29] Mode operation codes 0h FFU_STATUS [26] FFU status 0h PRE_LOADING_DATA_SIZE [25:22] Pre loading data size 0h MAX_PRE_LOADING_DATA_ SIZE [21:18] Max pre loading data size See Max Preloading size table below PRODUCT_STATE_AWARENE SS_ENABLEMENT [17] Product state awareness enablement 3h AUTO_PRE_SOLDERING SECURE_REMOVAL_TYPE [16] Secure Removal Type 8h CMDQ_MODE_EN [15] Command queue 0h © 2017 SanDisk – a Western Digital brand - 30 - DOC-56-34-01460 5.4. User Density The following table shows the capacity available for user data for the different device sizes: Table 13 - Capacity for user data Capacity 8GB LBA [Hex] 0xE90E80 16GB 0x1D5A000 32GB 0x3A3E000 64GB 0x7670000 Table 14 - Write protect group size Capacity HC_ERASE_GROUP_SIZE HC_WP_GRP_SIZE Erase Unit Size [MB] Write Protect Group Size [MB] 8GB 0x1 0x10 0.5MB 8MB 16GB 0x1 0x10 0.5MB 8MB 32GB 0x1 0x10 0.5MB 8MB 64GB 0x1 0x10 0.5MB 8MB The max preloading image in iNAND 7250 is up to the exported capacity per table below Table 15 - Max Preloading Data Size Capacity © 2017 SanDisk – a Western Digital brand Max preloading Image size (in LBA HEX) 8GB 0xE90E80 16GB 0x1D5A000 32GB 0x3A3E000 64GB 0x7670000 - 31 - DOC-56-34-01460 6. HW APPLICATION GUIDELINES 6.1. Design Guidelines         The e.MMC specification enforces single device per host channel; multi-device configuration per a single host channel is not supported. CLK, RCLK(DS), CMD and DATx lines should be connected to respected host signals. The e.MMC specification requires that all signals will be connected point-to-point, i.e. a single e.MMC device per host channel. All power supply and ground pads must be connected. Make sure pull-up resistors are placed on schematic in case these are external. For further details please refer to “Table 19 - Pull-ups Definition” Bypass capacitors shall be placed as close to the e.MMC device as possible; normally it is recommended to have 0.1uF and 4.7uF capacitors per power supply rail, though specific designs may include a different configuration in which there are more than two capacitors: o VCC and VCCQ slew rates shall be minimally affected by any bypass capacitors configuration o It is recommended to verify the bypass capacitors requirement in the product data sheet VDDi bypass capacitor shall be placed on the PCB. The VDDi is an internal power node for the controller and requires capacitor in range 0.1uF – 2.2uF connected between VDDi pad and ground Vendor Specific Function (VSF) pins should be connected to accessible test points on the PCB (TP on schematic below). It’s recommended to have accessible ground (GND) pads near each TP on PCB It is recommended to layout e.MMC signals with controlled impedance of 45-55 Ohm referencing to adjusted ground plane © 2017 SanDisk – a Western Digital brand - 32 - DOC-56-34-01460 6.2. Capacitor Selection & Layout Guidelines SanDisk iNAND 7250 has three power domains assigned to VCCQ, VCC and VDDi, as shown in table below. Table 16 - 7250 Power Domains Pin Power Domain Comments VCCQ Host Interface Supported voltage ranges: Low Voltage Region: 1.8V (nominal) VCC Memory Supported voltage range: High Voltage Region: 3.3V (nominal) VDDi Internal VDDi is the internal regulator connection to an external decoupling capacitor. It is recommended that the power domains connectivity will follow figure 4: Top View Capacitor C_3/4:  Capacitor C3 >= 4.7uF  Capacitor C4 =< 0.1uF  X5R or X7R  Voltage > 6.3V Trace Requirements:  Resistance < 0.5[Ω]  Inductance < 3n[Hy] Placement:  Closest to ball F5 C_3 C_4 Capacitor C_5:  Capacitor >= 0.1uF  Capacitor =< 2.2uF  X5R or X7R  Voltage > 6.3V Trace Requirements:  Resistance < 0.5[Ω]  Inductance < 3n[Hy] Placement:  Closest to ball C2 C_5 14 14 NC NC NC NC NC NC NC NC NC NC NC NC NC NC 13 13 NC NC NC NC NC NC NC NC NC NC NC NC NC NC 12 12 NC NC NC NC NC NC NC NC NC NC NC NC NC NC 11 11 NC NC NC NC NC NC 10 10 NC NC NC VSF2 VSF4 NC NC NC 99 NC NC NC VSF1 VCC NC NC NC 88 NC NC NC NC VSS NC NC NC 77 NC NC NC VSS NC NC NC NC 66 VSS DAT7 VccQ VCC NC CLK NC VssQ 55 DAT2 DAT6 NC QRDY RESET CMD VssQ VccQ 44 DAT1 DAT5 VssQ NC VccQ VccQ VssQ 33 DAT0 DAT4 NC NC NC NC NC NC NC NC NC NC NC VccQ 22 NC DAT3 Vddi NC NC NC NC NC NC NC NC NC VssQ NC 11 NC NC NC NC NC NC NC NC NC NC NC NC NC NC AA BB CC DD FF GG HH JJ KK LL VSF3 VCC NC VSS VSS RCLK VCC VSS Capacitor C_1/2:  Capacitor C1 >= 4.7uF  Capacitor C2 =< 0.1uF  X5R or X7R  Voltage > 6.3V Trace Requirements:  Resistance < 0.5[Ω]  Inductance < 3n[Hy] Placement:  Closest to ball P3 C_1 EE M M NN C_2 PP Figure 4 - Recommended Power Domain Connectivity Note: Signal routing in the diagram is for illustration purposes only and the final routing depends final PCB layout. For clarity, the diagram does not include VSS connection. All balls marked VSS shall be connected to a ground (GND) plane. © 2017 SanDisk – a Western Digital brand - 33 - DOC-56-34-01460 It is recommended to use a X5R/X7R SMT-Ceramic capacitors rated for 6.3V/10V with footprint of 0402 or above. When using ceramic capacitor, it should be located as close to the supply ball as possible. This will eliminate mounting inductance effects and give the internal IC rail a cleaner voltage supply Make all of the power (high current) traces as short, direct, and thick as possible. The capacitors should be as close to each other as possible, as it reduces EMI radiated by the power traces due to the high switching currents through them. In addition, it shall also reduce mounting inductance and resistance as well, which in turn reduces noise spikes, ringing, and IR drop which produce voltage errors. The grounds of the IC capacitors should be connected close together directly to a ground plane. It is also recommended to have a ground plane on both sides of the PCB, as it reduces noise by reducing ground loop. The loop inductance per capacitor shall not exceed 3nH (both on VCC/VCCQ & VSS/VSSQ loops). Cin2 shall be placed closer (from both distance & inductance POV) to the iNAND power & ground balls. Multiple via connections are recommended per each capacitor pad. It is recommended to place the power and ground vias of the capacitor as close to each other as possible. On test platforms, where the iNAND socket is in use, the loop inductance per capacitor shall not exceed 5nH (both on VCC/VCCQ & VSS/VSSQ loop). No passives should be placed below the iNAND device (between iNAND & PCB). VSF balls (VSF1/4) should have exposed and floated test pads on the PCB, with near exposed GND for better measurement. Signal Traces:   Data, CMD, CLK & RCLK bus trace length mismatch should be minimal (up to +/-1mm). Traces should be45-55 ohm controlled impedance. © 2017 SanDisk – a Western Digital brand - 34 - DOC-56-34-01460 6.3. Reference Schematics Figure 5 – e.MMC Reference Schematics Table 17 – Pull-ups Definition Parameter Symbol Pull-up resistance for DAT0–7 RDAT Min Typ 10 Max Unit Remark (1) Kohm to prevent bus floating (1) 100 Pull-up resistance for CMD RCMD 4.7 100 Kohm to prevent bus floating Pull-down resistance for Data Strobe (RCLK) RPD 10 47 Kohm At HS400 mode (1) Recommended maximum pull-up is 50Kohm for 1.8V interface supply voltages. A 3V part may use the whole range up to 100Kohms Recommended capacitors: CAPACITOR VALUE 4.7uF 0.1uF 2.2uF © 2017 SanDisk – a Western Digital brand MANUFACTURER MURATA MANUFACTURER P/N GRM185R60J475ME15D TAIYO YUDEN JMK107BJ475MK-T MURATA GRM155R71A104KA01D KYOCERA CM05X5R104K06AH PANASONIC ECJ0EB0J225M SAMSUNG CL05A225MQ5NSNC - 35 - DOC-56-34-01460 7. PROPRIETY INAND 7250 FEATURE OVERVIEW 7.1. Smart Partitioning The Industrial iNAND 7250 supports the ability to be partitioned by the host into several areas with varying endurance, retention, and security features and characteristics. The 7250 partitioning implementation physically creates the separation inside the device. These separate pools are individually managed, allowing for independent wear leveling, refresh, and health reporting schemes. This also protects each partition from any unwanted effects of unintended use of other partitions. For example, overuse of a write intensive partition would not affect an operating system partition. Please reference the “iNAND 7250 Partitioning” application note for more information. 7.2. Manual Refresh The Industrial iNAND 7250 is designed with an automatic read refresh capability. The sophisticated read refresh algorithms provide protection from the effects of read disturb, read endurance and data retention issues. In addition, the iNAND 7250 provides the ability for the host to force a refresh of designated blocks. The host can initiate, restart and monitor the progress of the refresh activity.    To initiate a refresh: Send CMD62 with argument of 0xAEFE1430 To check refresh progress: Send CMD62 with argument of 0xAEFE1431, then send CMD63 with argument 0x00000000 to retrieve the progress in terms of percentage of the entire device refreshed To reset the refresh to the beginning of the device: Send CMD62 with argument of 0xAEFE1432 Please reference the “iNAND 7250 Manual Refresh” application note for more information. 7.3. Boot & RPMB resize The Industrial iNAND 7250 allows for larger boot (up to 31.875 MB) and RPMB (up to 16 MB) partitions than specified in the standards. To accomplish this, a vendor specific command (CMD62) has been defined. To accomplish this perform the following steps:     To indicate resize operation: Send CMD62 with argument of 0x254DDEC4 To set boot size: Send CMD62 with argument BOOT_SIZE_MULT as defined by the JEDEC spec To set RPMB size: Send CMD62 with argument RPMB_SIZE_MULT as defined by the JEDEC spec Power-on/reset is required for this change to take effect Please reference the “iNAND 7250 Partitioning” application note for more information. © 2017 SanDisk – a Western Digital brand - 36 - DOC-56-34-01460 7.4. One Time Programmable Register for Custom ID The Industrial iNAND 7250 allows customers to set a custom one-time programmable string as part of the vendor specific fields in the ext_CSD    The unique 8 byte Custom ID is specified in EXT_CSD[71-64] Each byte must be written individually using the SWITCH command (CMD6) These bytes may only be written once 7.5. Device Report & Advanced Health Status The Industrial iNAND 7250 Device Report feature reflects the firmware and device status. In addition to the Device Report, iNAND 7250 introduces a new proprietary Advanced Health Status feature that reflects more information on the device health and temperature.  Enabling Device Report Mode: Send CMD62 with argument of 0x96C9D71C - R1b Response will be returned Reading Device Report Data: Once the host enters Device Report mode, CMD63 with argument 0x00000000 will retrieve the report - 512 Bytes will be returned to the host (Note: CMD63 behaves similarly to CMD17) Resume Normal Operation Mode: Once the Device Report read command (CMD63) was completed, the device automatically goes out of Device Report mode, and resumes normal operation mode   7.5.1. Device Report fields Byte Offset Size (Bytes) Field Comments [3:0] 4 Avg Erase Count System Average erase value across all system blocks [4:7] 4 Reserved [8:11] 4 Avg Erase Count MLC Average erase value across all MLC blocks [15:12] 4 Read Reclaim Count System Number of reads of system data which passed read-scrub thresholds and require reclaim [19:16] 4 Reserved [23:20] 4 Read Reclaim Count MLC Number of MLC reads which passed read-scrub thresholds and require reclaim [27:24] 4 Bad Block Manufacturer Total bad blocks detected during manufacturing process [31:28] 4 Bad Block Runtime System Total bad blocks in system partitions detected during run-time [35:32] 4 Reserved [39:36] 4 Bad Block Runtime MLC Total bad blocks in MLC partition detected during run-time [43:40] 4 Patch Trial Count Number of secure field firmware updates (sFFU) done from the beginning of the device life [55:44] 12 Patch Release Date Current sFFU release date [63:56] 8 Patch Release Time Current sFFU release hour [67:64] 4 Cumulative Write Data Size In 100MB Total bytes written from the host in multiples of 100 MB © 2017 SanDisk – a Western Digital brand - 37 - DOC-56-34-01460 [71:68] 4 VCC Voltage Drop Occurrences [75:72] 4 VCC Voltage Droop Occurrences [79:76] 4 [83:80] 4 [99:84] 16 Failures to Recover New Host Data After Power Loss Recovery Operations After Voltage Droop Number of ungraceful power downs to the device. Counter may be inaccurate due to uncommitted counter updates during repeated voltage drops . Number of power-droops (slight power-droop below a threshold and for a very short period of time) Counts times new host data is discarded due to power loss Number of recovery operations done by the device while power-droop detected Reserved 7.5.2. Advanced Health Status Fields Byte Offset Size (Bytes) Field Comments [103:100] 4 Cumulative Initialization Count Number of power-ups [107:104] 4 Max Erase Count System Maximum erase value among all system blocks [111:108] 4 Reserved [115:112] 4 Max Erase Count MLC Maximum erase value among all MLC blocks [119:116] 4 Min Erase Count System Minimum erase value among all system blocks [123:120] 4 Reserved [127:124] 4 Min Erase Count MLC Minimum erase value among all MLC blocks [131:128] 4 Max Erase Count EUDA Maximum erase value among any EUDA blocks [135:132] 4 Min Erase Count EUDA Minimum erase value among any EUDA blocks [139:136] 4 Avg Erase Count EUDA Average erase value among any EUDA blocks [143:140] 4 Read Reclaim Count EUDA Number of reads of EUDA data which passed read-scrub thresholds and require reclaim [147:144] 4 Bad Block Runtime EUDA Total bad blocks in EUDA partition detected during run-time [151:148] 4 Pre EOL State EUDA [155:152] 4 Pre EOL State System [159:156] 4 Pre EOL State MLC [163:160] 4 Uncorrectable Error Correction Code 8 Pre EOL levels EUDA blocks: 1: normal 2: warning 3: urgent 4: read only Pre EOL levels system blocks: 1: normal 2: warning 3: urgent 4: read only Pre EOL levels blocks, remainder of device: 1: normal 2: warning 3: urgent 4: read only Number of uncorrectable errors detected 8 If EUDA partition is not defined, the min value is set by default to 0x1ffff. If EUDA partition is defined, the min PE cycles reflect the correct status of the pool © 2017 SanDisk – a Western Digital brand - 38 - DOC-56-34-01460 [167:164] 4 Current Temperature The current temperature of the device, in degrees Celsius [171:168] 4 Min Temperature [175:172] 4 Max Temperature [179:176] 4 Health Device Level EUDA Health status of EUDA blocks, 1–100% [183:180] 4 Health Device Level System Health status of system blocks, 1–100% [187:184] 4 Health Device Level MLC Health status of MLC blocks, 1–100% [511:188] 324 Reserved Minimum temperature recorded in the device over lifetime, in degrees 9 Celsius Maximum temperature recorded in the device over lifetime, in degrees Celsius 7.6. Power-Loss indications Industrial iNAND 7250 is also serving the host by notifying him on cases of Power-Loss events and internal handling of those events. A dedicated field in the EXT_CSD register was allocated to indicate the occurrence of Power Loss/Write Abort during the last power down. This field reports if a Power Loss was detected and recovered during the last power-up. In order to retrieve this field, the host should issue CMD8 command – SEND_EXT_CSD. This command returns full EXT_CSD structure – 512 bytes as block of data. Following is the EXT_CSD field details: Name Power Loss indication Field POWER_LOSS_REPORT Size (bytes) 1 Cell Type R Hex Offset 0x79 Dec. Offset 121 POWER_LOSS_REPORT[121] details:  Bit[2]: RECOVERY_SUCCESS 0x1: Recovery passed successfully 0x0: Recovery failed  Bit[1]: RECOVER_OLD_DATA 0x1: Recovery to old copy of data 0x0: No data recovery required  Bit[0]: POWER_LOSS_DETECTED 0x1: Unexpected Power Loss was detected - Detection is done during initialization, immediately after Power-Up Note: In case Power Loss did not occur on last shut down, this register will show 0x00 7.6.1. Unstable Power-Supply indications In case of Flash voltage drop, the iNAND may not be able to recover the data that was already transferred to the iNAND device, but wasn’t committed in the Flash. In this case the iNAND will “abort” the current host write and return back to the host with an error indication. 9 The minimum temperature reported is 0C although the devices operates up to -40C © 2017 SanDisk – a Western Digital brand - 39 - DOC-56-34-01460 iNAND 7250 will use BIT19 and BIT20 (cc_error) in the command response to indicate VDET error status to the host. the VDET error indication can be seen only if CMD13 was issued, or in the next command response. Examples:  Open Mode (CMD25+CMD12+CMD13): In both cases, where the voltage droop occurs before or after CMD12: CMD12 response will not have BIT19 and BIT20 set. CMD13 will identify the error indication - BIT19 and BIT20 will be set in CMD13 response Note: The host may send many CMD13 and the BIT19 will be set only in first CMD13 after releasing the busy.  Close Mode (CMD23+CMD25+CMD13): CMD13 will identify the error indication - BIT19 and BIT20 will be set in CMD13 response  Single Block Mode (CMD24+CMD13): CMD13 will identify the error indication - BIT19 and BIT20 will be set in CMD13 response Host shall retry latest command as long as the VDET error indication on CMD13 response (or next command response (BIT19 and BIT20 are set) is still set 7.7. Unified Boot iNAND 7250 Unified Boot is a proprietary feature that allows the host to boot from a secondary boot partition without the need to explicitly switch to the secondary partition. When this feature is enabled, the device will transfer the data from both boot partitions to the host, first from the enabled boot partition followed by the other partition. A typical use case is to guarantee a version of the boot will always be valid in case of Over The Air (OTA) boot update. The host can set one boot partition as permanent write protect (never to be changed) and the other as temporary write protect. The second boot will be used for update. In case OTA is corrupted or fail, host will always be able to boot based on the old version saved in boot one. This feature is only supported on FW version CS2.2. 7.7.1. Unified Boot Support Indication EXT_CSD Field Name UNI_BOOT_PROC_SUPPORT[93] Bit(s) [0] Read Only Value 0x0 0x1 Description Device doesn’t support Unified Boot Device supports Unified Boot Default Description 7.7.2. Enable Unified Boot EXT_CSD Field Name © 2017 SanDisk – a Western Digital brand Bit(s) - 40 - DOC-56-34-01460 UNI_BOOT_PROC_ENABLE[92] 0x0 0xF2 [0-7] R/W Unified Boot is disabled Unified Boot is enabled 7.7.3. Important Considerations The configuration of unified boot can only be performed once at the beginning of life of a device, before any data is transferred to it. After all of the parameters have been specified and committed to the device, it cannot be changed. This functionality is disabled if either of the boot partitions have ever been write protected. The amount of data transferred for each partition is equal to the partition size, regardless of the size of the programmed image. 7.8. Hardware Pin Secure Boot Per JEDEC e.MMC 5.1 definition, e.MMC boot partitions have 3 write protection methods: 1. Permanent Write Protection – once set, boot data cannot be written 2. Power-on Write Protection – once set, boot data cannot be written until a device reset 3. Secure Write Protection – host may set/clear write protection using a secure key iNAND 7250 introduces a fourth method that works in conjunction with a permanently write protected boot partition. 4. Hardware Pin Secure Boot - a physical authentication procedure is required using VSF pin #4 which is verified by the device controller in order to authorize writing to a boot partition. The physical authentication requires the host to keep VSF pin #4 at ground voltage level and restore it to floating state after the device power-up sequence is complete. This procedure would authorize the user to write to the permanently protected boot partition. Upon reset of the device the authorization to update the boot partition would be aborted and permanent write protection is restored. Host can implement this feature by enabling a push button switch on the platform that would generate the signal below. © 2017 SanDisk – a Western Digital brand - 41 - DOC-56-34-01460 Device FW Allows Writing to Permanent Write Protect area since:  VSF#4 was GND during POR  Currently VSF#4 status is Floating Power-on Reset: Device Update VSF#4 Status Register VSF#4 Floating Floating GND Before Power-on Reset host has to GND VSF#4 Before Writing to Permanent Write Protect host has to Float VSF#4 Figure 6 Power-on Sequence This feature is only supported on FW version CS2.2. 7.8.1. Requirements This feature is designed only for the boot partitions. It works only in addition to boot partition permanent write protection. It will not work with power-on write protection of the boot partitions. Also, it will not work with whole device permanent or temporary write protection. 7.8.2. Physical Proof Protocol Support Indication EXT_CSD Field Name PPP_FEATURES_SUPPORT[123] Bit(s) Value 0x0 0x1 [0] Read Only Description Device does not support HW pin Device supports HW pin 7.8.3. Enable Physical Proof Protocol EXT_CSD Field Name PPP_FEATURES_ENABLE[122] Bit(s) Default 0x0 0x1 [0] R/W Description PPP features are disabled PPP features are enabled 7.8.4. Configuration Process NOTE: This feature must be enabled BEFORE setting permanent write protection on the boot partitions. Step 1: Check PPP_FEATURES_SUPPORT bit 0 to determine that this feature is supported. Step 2: Set PPP_FEATURES_ENABLE bit 0 to 1 to indicate PPP features will be used. Step 3: Set permanent write protection of the boot partitions (BOOT_WP[173] = 0x04). © 2017 SanDisk – a Western Digital brand - 42 - DOC-56-34-01460 7.8.5. Authentication Process Step 1: Host must set VSF #4 to GND before, during and for at least 2 seconds after POR. Step 2: Host must return VSF #4 to floating state. Step 3: If the device has determined that all the proper authentication criteria have been met, the host may now write to the protected boot partitions. NOTE: Once authenticated, the boot partitions are write enabled until the next POR. © 2017 SanDisk – a Western Digital brand - 43 - DOC-56-34-01460 8. MARKING First row: Simplified SanDisk Logo Second row: Sales item P/N Third row: Country of origin i.e. ‘TAIWAN’ or ‘CHINA’ * No ES marking for product in mass production. Fourth row: Y- Last digit of year WW- Work week D- A day within the week. MTLLLXXX – Internal use 2D barcode: Store the 12 Digital ID information as reflected in the fourth row Figure 7 - Product marking 8GB-64GB for –I and –I1 SKUs Figure 8 - Product marking 8GB-64GB for –XI1 SKU © 2017 SanDisk – a Western Digital brand - 44 - DOC-56-34-01460 9. ORDERING INFORMATION Table 18 – Ordering Information (-25°C to +85°C ambient) Previous product version for existing customers only Capacity Technology Part Number Samples Part Number Package e.MMC 8GB 15nm X2 eMLC SDINBDG4-8G-I SDINBDG4-8G-IQ 11.5x13x0.8mm 5.1 16GB 15nm X2 eMLC SDINBDG4-16G-I SDINBDG4-16G-IQ 11.5x13x0.8mm 5.1 32GB 15nm X2 eMLC SDINBDG4-32G-I SDINBDG4-32G-IQ 11.5x13x1.0mm 5.1 64GB 15nm X2 eMLC SDINBDG4-64G-I SDINBDG4-64G-IQ 11.5x13x1.2mm 5.1 Latest product version Capacity Technology Part Number Samples Part Number Package e.MMC 8GB 15nm X2 eMLC SDINBDG4-8G-I1 SDINBDG4-8G-I1Q 11.5x13x0.8mm 5.1 16GB 15nm X2 eMLC SDINBDG4-16G-I1 SDINBDG4-16G-I1Q 11.5x13x0.8mm 5.1 32GB 15nm X2 eMLC SDINBDG4-32G-I1 SDINBDG4-32G-I1Q 11.5x13x1.0mm 5.1 64GB 15nm X2 eMLC SDINBDG4-64G-I1 SDINBDG4-64G-I1Q 11.5x13x1.2mm 5.1 Table 19 – Ordering Information (-40°C to +85°C ambient) Capacity Technology Part Number Samples Part Number Package e.MMC 8GB 15nm X2 eMLC SDINBDG4-8G-XI1 SDINBDG4-8G-XI1Q 11.5x13x0.8mm 5.1 16GB 15nm X2 eMLC SDINBDG4-16G-XI1 SDINBDG4-16G-XI1Q 11.5x13x0.8mm 5.1 32GB 15nm X2 eMLC SDINBDG4-32G-XI1 SDINBDG4-32G-XI1Q 11.5x13x1.0mm 5.1 64GB 15nm X2 eMLC SDINBDG4-64G-XI1 SDINBDG4-64G-XI1Q 11.5x13x1.2mm 5.1 © 2017 SanDisk – a Western Digital brand - 45 - DOC-56-34-01460 HOW TO CONTACT US Please refer to contact information: Western Digital Technologies, Inc. 951 SanDisk Dr. Milpitas, CA 95035-7933 Phone: +1-408-801-1000 OEMProducts@SanDisk.com www.sandisk.com © 2017 SanDisk – a Western Digital brand - 46 - SanDisk’s web site for www.sandisk.com DOC-56-34-01460