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M88142Y-90K6T

M88142Y-90K6T

  • 厂商:

    STMICROELECTRONICS(意法半导体)

  • 封装:

  • 描述:

    M88142Y-90K6T - In-System Programmable ISP Multiple-Memory and Logic FLASHPSD Systems with CPLD for ...

  • 数据手册
  • 价格&库存
M88142Y-90K6T 数据手册
M88 FAMILY In-System Programmable (ISP) Multiple-Memory and Logic FLASH+PSD Systems (with CPLD) for MCUs DATA BRIEFING s s Single Supply Voltage: – 5 V±10% for M88xxFxY – 3 V (+20/–10%) for M88xxFxW 1 or 2 Mbit of Primary Flash Memory (8 uniform sectors, 16K x 8, or 32K x 8) A second non-volatile memory: – 256 Kbit (32K x 8) EEPROM (for M8813F1x) or Flash memory (for M88x3F2x) – 4 uniform sectors (8K x 8) SRAM (16 Kbit, 2K x 8; or 64 Kbit, 8K x 8) Over 3,000 Gates of PLD: DPLD and CPLD 27 Reconfigurable I/O ports Enhanced JTAG Serial Port Programmable power management Stand-by current: – 50 µA for M88xxFxY – 25 µA for M88xxFxW High Endurance: – 100,000 Erase/Write Cycles of Flash Memory – 10,000 Erase/Write Cycles of EEPROM – 1,000 Erase/Write Cycles of PLD PQFP52 (T) s s s s s s s s PLCC52 (K) Figure 1. Logic Diagram VCC DESCRIPTION The FLASH+PSD family of memory systems for microcontrollers (MCUs) brings In-SystemTable 1. Signal Names PA0-PA7 PB0-PB7 PC0-PC7 PC2 = Voltage Stand-by PD0-PD2 AD0-AD15 CNTL0-CNTL2 RESET VCC VSS Port-D Address/Data Control Reset Supply Voltage Ground Port-A Port-B Port-C 8 PA0-PA7 3 CNTL0CNTL2 16 AD0-AD15 3 RESET PD0-PD2 FLASH+PSD 8 PC0-PC7 8 PB0-PB7 VSS AI02856 June 2000 Complete data available on Data-on-Disc CD-ROM or at www.st.com 1/7 M 88 FAMILY Figure 2A. PLCC Connections CNTL1 CNTL2 RESET CNTL0 PB0 PB1 PB2 PB3 PB4 PB5 GND PB6 PB7 Figure 2B. PQFP Connections 40 CNTLO PD2 PD1 PD0 PC7 PC6 PC5 PC4 VCC GND PC3 PC2 PC1 PC0 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 46 45 44 43 42 41 40 39 38 37 36 35 34 27 28 29 31 32 30 33 AD15 AD14 AD13 AD12 AD11 AD10 AD9 AD8 VCC AD7 AD6 AD5 AD4 GND 19 AD3 26 PA7 14 PA6 15 PA5 16 PA4 17 PA3 18 PA2 20 PA1 21 PA0 22 AD0 23 AD1 24 AD2 25 PD2 1 PD1 2 PD0 3 PC7 4 PC6 5 PC5 6 PC4 7 V CC 8 GND 9 PC3 10 PC2 11 PC1 12 PC0 13 39 AD15 38 AD14 37 AD13 36 AD12 35 AD11 34 AD10 33 AD9 32 AD8 31 V CC 30 AD7 29 AD6 28 AD5 27 AD4 PA7 PA6 PA5 PA4 PA3 PA2 PA1 PA0 AD1 AD2 GND AD0 AD3 AI02857 41 RESET 43 CNTL1 42 CNTL2 46 GND 52 PB0 51 PB1 50 PB2 49 PB3 48 PB4 47 PB5 45 PB6 44 PB7 4 Programmability (ISP) to Flash memory and programmable logic. The result is a simple and flexible solution for embedded designs. FLASH+PSD devices combine many of the peripheral functions found in MCU based applications. FLASH+PSD provides a glueless interface to most commonly-used ROMless MCUs. Table 2 summarizes all the devices in the M88 Family. The CPLD in the FLASH+PSD devices features an optimized Macrocell logic architecture. The Macrocell was created to address the unique requirements of embedded system designs. It allows direct connection between the system address/data bus, and the internal FLASH+PSD Table 2. Product Range1 Part Number M8813F1Y M8813F2Y M8834F2Y M8813F1W M8813F2W M8834F2W Primary Flash Memory 1 Mbit 1 Mbit 2 Mbit 1 Mbit 1 Mbit 2 Mbit Secondary NVM 256 Kbit EEPROM 256 Kbit Flash memory 256 Kbit Flash memory 256 Kbit EEPROM 256 Kbit Flash memory 256 Kbit Flash memory SRAM2 16 Kbit 16 Kbit 64 Kbit 16 Kbit 16 Kbit 64 Kbit I/O Ports Voltage Range 27 27 27 27 27 27 2.7-3.6 V 150 ns 4.5-5.5 V 90 ns or 150 ns Access Time Note: 1. All products support: JTAG serial ISP, MCU parallel ISP, ISP Flash memory, ISP CPLD, Security features, Power Management Unit (PMU), Automatic Power-down (APD) 2. SRAM may be backed up using an external battery. 7 5 3 2 52 51 50 49 48 47 6 1 AI02858 registers, to simplify communication between the MCU and other supporting devices. The FLASH+PSD device includes a JTAG Serial Programming interface, to allow In-System Programming (ISP) of the entire device. This feature reduces development time, simplifies the manufacturing flow, and dramatically lowers the cost of field upgrades. Using ST’s special FastJTAG programming, a design can be rapidly programmed into the FLASH+PSD. The innovative FLASH+PSD family solves key problems faced by designers when managing discrete Flash memory devices, such as: – Complex address decoding – In-System (first-time) Programming (ISP) – Concurrent EEPROM or Flash memory programming (IAP). 2/7 ADDRESS/DATA/CONTROL BUS PLD INPUT BUS PAGE REGISTER EMBEDDED ALGORITHM 8 SECTORS POWER MANGMT UNIT 1 OR 2 MBIT PRIMARY FLASH MEMORY 8 VSTDBY (PC2) CNTL0, CNTL1, CNTL2 SECTOR SELECTS FLASH DECODE PLD (DPLD) 73 SECTOR SELECTS SRAM SELECT PERIP I/O MODE SELECTS CSIOP RUNTIME CONTROL AND I/O REGISTERS 3 EXT CS TO PORT D 16 OUTPUT MACROCELLS PORT A ,B & C 24 INPUT MACROCELLS CLKIN PORT A ,B & C 16 OR 64 KBIT BATTERY BACKUP SRAM 256 KBIT SECONDARY EEPROM or FLASH MEMORY (BOOT OR DATA) 4 SECTORS Figure 3. FLASH+PSD Block Diagram PROG. MCU BUS INTRF. PROG. PORT PORT A PA0 – PA7 AD0 – AD15 ADIO PORT 73 FLASH ISP CPLD (CPLD) PROG. PORT PORT B PB0 – PB7 PROG. PORT MACROCELL FEEDBACK OR PORT INPUT CLKIN PORT C PC0 – PC7 GLOBAL CONFIG. & SECURITY PROG. PORT CLKIN (PD1) PLD, CONFIGURATION & FLASH MEMORY LOADER JTAG SERIAL CHANNEL PORT D PD0 – PD2 AI02861D Sometimes computers try to be too clever for their own good. Take this illustration for instance. Just because so many of the labels are rotated through ninety degrees, FrameMaker seems to want to insist on telling the postscript file that I would find it more convenient to see this page displayed in landscape, rotated by ninety degrees. Well I wouldn’t. So I am putting in all this text just to weight the average in this direction. M88 FAMILY 3/7 M 88 FAMILY The JTAG Serial Interface block allows In-System Programming (ISP). Embedded dual-bank memories eliminates the need for an external Boot EPROM or Flash memory, or an external programmer. To simplify Flash memory updates, program execution is performed from a secondary Flash memory (for the M88xxF2x) or EEPROM (for the M8813F1x) while the primary Flash memory is being updated. This solution avoids the complicated hardware and software overhead necessary to implement IAP. ST makes available a software development tool, PSDsoft, that generates ANSI-C compliant code for use with your target MCU. This code allows you to manipulate the non-volatile memory (NVM) within the FLASH+PSD. Code examples are also provided for: – Flash memory IAP via the UART of the host MCU – Memory paging to execute code across several FLASH+PSD memory pages – Loading, reading, and manipulation of FLASH+PSD Macrocells by the MCU. FLASH+PSD ARCHITECTURAL OVERVIEW FLASH+PSD devices contain several major functional blocks. Figure 3 shows the architecture of the M88 FLASH+PSD device family. The functions of each block are described briefly in the following sections. Many of the blocks perform multiple functions and are user configurable. Memory The 1 or 2 Mbit (128K x 8, or 256K x 8) Flash memory is the primary memory of the FLASH+PSD. It is divided into eight equally-sized sectors that are individually selectable. The 256 Kbit (32K x 8) secondary EEPROM or Flash memory is divided into four equally-sized sectors. Each sector is individually selectable. The SRAM is intended for use as a scratch-pad memory or as an extension to the MCU SRAM. If an external battery is connected to Voltage Standby (VSTBY, PC2), data is retained in the event of power failure. Each sector of memory can be located in a different address space as defined by the user. The access times for all memory types includes the address latching and DPLD decoding time. The M8813F1x has 64 bytes of OTP memory for product identifiers, serial numbers, calibration constants, etc.. Page Register The 8-bit Page Register expands the address range of the MCU by up to 256 times. The paged address can be used as part of the address space to access external memory and peripherals, or 4/7 internal memory and I/O. The Page Register can also be used to change the address mapping of sectors of the Flash memories into different memory spaces for IAP. PLDs The device contains two PLDs, the Decode PLD (DPLD) and the Complex PLD (CPLD), each optimized for a different function, as shown in Table 3. The functional partitioning of the PLDs reduces power consumption, optimizes cost/ performance, and eases design entry. The DPLD is used to decode addresses and to generate Sector Select signals for the FLASH+PSD internal memory and registers. The DPLD has 17 combinatorial outputs, which are used to select memory sectors and JTAG. The CPLD has 16 Output Macrocells (OMC) and 3 combinatorial outputs. The CPLD also has 24 Input Macrocells (IMC) that can be configured as inputs to the PLDs. The PLDs receive their inputs from the PLD Input Bus and are differentiated by their output destinations, number of product terms, and Macrocells. The PLDs consume minimal power. The speed and power consumption of the PLD is controlled by the Turbo bit in the PMMR0 register and other bits in the PMMR2 registers. These registers are set by the MCU at run-time. There is a slight penalty to PLD propagation time when invoking the power management features. I/O Ports The FLASH+PSD has 27 individually configurable I/O pins distributed over the four ports (Port A, B, C, and D). Each I/O pin can be individually configured for different functions. Ports can be configured as standard MCU I/O ports, PLD I/O, or latched address outputs for MCUs using multiplexed address/data buses. Ports A and B can be configured to be open drain. The JTAG pins can be enabled on Port C for InSystem Programming (ISP). Ports A and B can also be configured as a data port for a non-multiplexed bus or multiplexed address/data bus for certain types of 8-bit MCUs. MCU Bus Interface FLASH+PSD interfaces easily with most 8-bit MCUs that have either multiplexed or nonmultiplexed address/data buses. The device is configured to respond to the MCU’s control signals, which are also used as inputs to the PLDs. Where there is a requirement to use a 16-bit data bus to interface to a 16-bit MCU, two PSDs must be used. For examples, please see the full data sheet. M88 FAMILY Table 3. PLD I/O Name Decode PLD (DPLD) Complex PLD (CPLD) Inpu ts 73 73 Outputs 17 19 Product Terms 42 140 Table 4. JTAG SIgnals on Port C Port C Pins PC0 PC1 PC3 PC4 TMS TCK TSTAT TERR TDI TDO JTAG Signal JTAG Port In-System Programming (ISP) can be performed through the JTAG signals on Port C. This serial interface allows complete programming of the entire FLASH+PSD device. A blank device can be completely programmed for the first time after it is soldered to the board. The JTAG signals (TMS, TCK, TSTAT, TERR, TDI, TDO) can be multiplexed with other functions on Port C. Table 4 indicates the JTAG pin assignments. Four-pin JTAG is also fully supported. In-System Programming (ISP) Using the JTAG signals on Port C, the entire FLASH+PSD device can be programmed or erased without the use of the MCU. The primary Flash memory can also be programmed in-system by the MCU executing the programming algorithms out of the secondary memory, or SRAM. The secondary memory can be programmed the same way by executing out of the primary Flash memory. The PLD or other FLASH+PSD Configuration blocks can be programmed through the JTAG port or a device insertion programmer. Table 5 indicates which programming methods can program different functional blocks of the FLASH+PSD. Power Management Unit (PMU) The Power Management Unit (PMU) gives the user control of the power consumption on selected functional blocks based on system requirements. The PMU includes an Automatic Power-down (APD) Unit that turns off device functions during MCU inactivity. The APD Unit has a Power-down mode that helps reduce power consumption. The FLASH+PSD also has some bits that are configured at run-time by the MCU to reduce PC5 PC6 power consumption of the CPLD. The Turbo bit in the PMMR0 register can be reset to 0 and the CPLD latches its outputs and goes to sleep until the next transition on its inputs. Additionally, bits in the PMMR2 register can be set by the MCU to block signals from entering the CPLD to reduce power consumption. Please see the full data sheet for more details. SECURITY AND NVM SECTOR PROTECTION A security bit in the Protection Register enables the software project, coded in the FLASH+PSD, to be locked up. This bit is only accessible by the system designer from the JTAG serial port, or from a parallel insertion programmer. It cannot be accessed from the MCU. The only way a security bit can be cleared is to erase the entire chip. The contents of the sectors of the primary and secondary NVM blocks can be protected using bits in the Protection Registers. These bits are accessible from the MCU in the application code, or from a programmer during the set-up procedure. Table 5. Methods of Programming Different Functional Blocks of the FLASH+PSD Functional Block Primary Flash Memory Secondary EEPROM or Flash memory PLD Array (DPLD and CPLD) FLASH+PSD Configuration OTP Row JTAG Programming Yes Yes Yes Yes No Device Programmer Yes Yes Yes Yes Yes Yes Yes No No Yes IAP 5/7 M 88 FAMILY Table 6. Ordering Information Scheme Example: M88 1 3 F 1 W – 15 T 1 T SRAM Capacity 1 3 16 Kbit 64 Kbit T Option Tape & Reel Packing Temperature Range Flash Memory Capacity 3 4 1 Mbit (128K x 8) 2 Mbit (256K x 8) 1 6 0 to 70 °C (commercial) –40 to 85 °C (industrial) 2nd Non Volatile Memory 1 2 256 Kbit EEPROM 256 Kbit Flash memory K T Package PLCC52 PQFP52 Operating Voltage Y W 4.5 V to 5.5 V 2.7 V to 3.6 V -90 -15 90 ns Speed 1 150 ns Note: 1. Available on the 4.5 to 5.5 V range, only. ORDERING INFORMATION SCHEME When delivered from ST, the FLASH+PSD device has all bits in the memory and PLDs set to 1. The FLASH+PSD Configuration Register bits are set to 0. The code, configuration, and PLD logic are loaded using the programming procedure. Information for programming the device is available directly from ST. Please contact your local sales representative. The notation used for the device number is as shown in Table 6. For a list of available options (speed, package, etc.) or for further information on any aspect of this device, please see the full data sheet (please consult our pages on the world wide web: www.st.com/flashpsd). Alternatively, please contact your nearest ST Sales Office. 6/7 M88 FAMILY Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express writt en approval of STMicroelectronics. © 2000 STMicroelectronics - All Rights Reserved The ST logo is a registered trademark of STMicroelectronics. All other names are the property of their respective owners. STMicroelectronics GROUP OF COMPANIES Australia - Brazil - China - Finland - France - Germany - Hong Kong - India - Italy - Japan - Malaysia - Malta - Morocco - Singapore - Spain Sweden - Switzerland - United Kingdom - U.S.A. http://www. st.com 7/7
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