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M88341W-15T1T Datasheet(PDF) 4 Page - STMicroelectronics |
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M88341W-15T1T Datasheet(HTML) 4 Page - STMicroelectronics |
4 / 7 page M88 FAMILY 4/7 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 Stand- by (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 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 In- System 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 non- multiplexed 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. |
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