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TS80C188EB13 Fiches technique(PDF) 4 Page - Intel Corporation |
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TS80C188EB13 Fiches technique(HTML) 4 Page - Intel Corporation |
4 / 59 page 80C186EB80C188EB 80L186EB80L188EB INTRODUCTION Unless specifically noted all references to the 80C186EB apply to the 80C188EB 80L186EB and 80L188EB References to pins that differ between the 80C186EB80L186EB and the 80C188EB 80L188EB are given in parentheses The ‘‘L’’ in the part number denotes low voltage operation Physi- cally and functionally the ‘‘C’’ and ‘‘L’’ devices are identical The 80C186EB is the first product in a new genera- tion of low-power high-integration microprocessors It enhances the existing 186 family by offering new features and new operating modes The 80C186EB is object code compatible with the 80C186XL 80C188XL microprocessors The 80L186EB is the 3V version of the 80C186EB The 80L186EB is functionally identical to the 80C186EB embedded processor Current 80C186EB users can easily upgrade their designs to use the 80L186EB and benefit from the reduced power consumption inherent in 3V operation The feature set of the 80C186EB meets the needs of low power space critical applications Low-Power applications benefit from the static design of the CPU core and the integrated peripherals as well as low voltage operation Minimum current consump- tion is achieved by providing a Powerdown mode that halts operation of the device and freezes the clock circuits Peripheral design enhancements en- sure that non-initialized peripherals consume little current Space critical applications benefit from the inte- gration of commonly used system peripherals Two serial channels are provided for services such as diagnostics inter-processor communication modem interface terminal display interface and many oth- ers A flexible chip select unit simplifies memory and peripheral interfacing The interrupt unit provides sources for up to 129 external interrupts and will pri- oritize these interrupts with those generated from the on-chip peripherals Three general purpose tim- ercounters and sixteen multiplexed IO port pins round out the feature set of the 80C186EB Figure 1 shows a block diagram of the 80C186EB 80C188EB The Execution Unit (EU) is an enhanced 8086 CPU core that includes dedicated hardware to speed up effective address calculations enhance execution speed for multiple-bit shift and rotate in- structions and for multiply and divide instructions string move instructions that operate at full bus bandwidth ten new instruction and fully static oper- ation The Bus Interface Unit (BIU) is the same as that found on the original 186 family products ex- cept the queue status mode has been deleted and buffer interface control has been changed to ease system design timings An independent internal bus is used to allow communication between the BIU and internal peripherals CORE ARCHITECTURE Bus Interface Unit The 80C186EB core incorporates a bus controller that generates local bus control signals In addition it employs a HOLDHLDA protocol to share the local bus with other bus masters The bus controller is responsible for generating 20 bits of address read and write strobes bus cycle status information and data (for write operations) in- formation It is also responsible for reading data off the local bus during a read operation A READY in- put pin is provided to extend a bus cycle beyond the minimum four states (clocks) The local bus controller also generates two control signals (DEN and DTR) when interfacing to exter- nal transceiver chips (Both DEN and DTR are available on the PLCC devices only DEN is avail- able on the QFP and SQFP devices) This capability allows the addition of transceivers for simple buffer- ing of the multiplexed addressdata bus Clock Generator The processor provides an on-chip clock generator for both internal and external clock generation The clock generator features a crystal oscillator a divide- by-two counter and two low-power operating modes The oscillator circuit is designed to be used with ei- ther a parallel resonant fundamental or third-over- tone mode crystal network Alternatively the oscilla- tor circuit may be driven from an external clock source Figure 2 shows the various operating modes of the oscillator circuit The crystal or clock frequency chosen must be twice the required processor operating frequency due to the internal divide-by-two counter This counter is used to drive all internal phase clocks and the exter- nal CLKOUT signal CLKOUT is a 50% duty cycle processor clock and can be used to drive other sys- tem components All AC timings are referenced to CLKOUT 4 4 |
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