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| data brief for further information contact your local stmicroelectronics sales office. september 2013 doc id 13850 rev 6 1/48 1 spc563mxx 32-bit power architecture ? based on mcu for automotive powertrain applications features single issue, 32-bit power architecture ? book e compliant e200z335 cpu core complex ? includes variable length encoding (vle) enhancements for code size reduction 32-channel direct memory access controller (dma) interrupt controller (intc) capable of handling 364 selectable-priority interrupt sources: 191 peripheral interrupt sources, 8 software interrupts and 165 reserved interrupts. frequency-modulated phase-locked loop (fmpll) calibration external bus interface (ebi) (a) system integration unit (siu) up to 1.5 mbyte on-chip flash with flash controller ? fetch accelerator for single cycle flash access @80 mhz up to 94 kbyte on-chip static ram (including up to 32 kbyte standby ram) boot assist module (bam) 32-channel second-generation enhanced time processor unit (etpu) ? 32 standard etpu channels ? architectural enhancements to improve code efficiency and added flexibility 16-channels enhanced modular input-output system (emios) enhanced queued analog-to-digital converter (eqadc) decimation filter (part of eqadc) silicon die temperature sensor 2 deserial serial peripheral interface (dspi) modules (compatible with microsecond bus) 2 enhanced serial communication interface (esci) modules co mpatible with lin 2 controller area network (flexcan) modules that support can 2.0b nexus port controller (npc) per ieee-isto 5001-2003 standard ieee 1149.1 (jtag) support nexus interface on-chip voltage regulator controller that provides 1.2 v and 3.3 v internal supplies from a 5 v external source. designed for lqfp100, lqfp144, lqfp176 and lbga208 packages. a. the external bus interface is only accessible when using the calibration tool . it is not available on production packages. lfbga208 17 mm x 17 mm x1.5mm lqfp144 20 mm x 20 mm lqfp100 14 mm x 14 mm lqfp176 24 mm x 24 m m table 1. device summary memory flash size part number package: lqfp100 package: lqfp144 package: lqfp176 package: lbga208 1536 kbyte - SPC563M64L5 spc563m64l7 - www.st.com
contents spc563mxx 2/48 doc id 13850 rev 6 contents 1 introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.1 document overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.2 description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 2 block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 3 device overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3.1 device comparison . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3.2 feature list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 3.3 feature details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 3.3.1 e200z335 core . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 3.3.2 crossbar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 3.3.3 edma . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 3.3.4 interrupt controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 3.3.5 fmpll . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 3.3.6 calibration ebi . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 3.3.7 siu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 3.3.8 ecsm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 3.3.9 flash . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 3.3.10 sram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 3.3.11 bam . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 3.3.12 emios . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 3.3.13 etpu2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 3.3.14 eqadc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 3.3.15 dspi . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33 3.3.16 esci . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 3.3.17 flexcan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 3.3.18 system timers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 3.3.19 software watchdog timer (swt) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 3.3.20 debug features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 4 orderable parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 5 revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 spc563mxx list of tables doc id 13850 rev 6 3/48 list of tables table 1. device summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 table 2. spc563mxx family device summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 table 3. order codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 table 4. revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 list of figures spc563mxx 4/48 doc id 13850 rev 6 list of figures figure 1. spc563mxx block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 figure 2. commercial product code structure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43 spc563mxx introduction doc id 13850 rev 6 5/48 1 introduction the spc563mxx is a family of system-on-chip devices that are built on power architecture ? technology and: are 100% user-mode compatible with the classic power architecture instruction set contain enhancements that improve the architecture?s fit in embedded applications include additional instruction support for digital signal processing (dsp) integrate technologies, such as an enhanced time processor unit, enhanced queued analog-to-digital converter, controller area network, and an enhanced modular input- output system, that are important for to day?s lower-end powertrain applications this document describes the features of the spc563mxx and highlights important electrical and physical characteristics of the device. 1.1 document overview this document provides an overview and describes the features of the device series of microcontroller units (mcus). for functional ch aracteristics, refer to the device reference manual. for electrical specifications and packa ge mechanical drawings, refer to the device data sheet. pin assignments can be found in both the reference manual and data sheet. 1.2 description these 32-bit automotive microcontrollers are a family of system-on-ch ip (soc) devices that contain all the features of the spc563mxx family and many new features coupled with high performance 90 nm cmos technology to provide substantial reduction of cost per feature and significant performance improvement. the advanced and cost-efficient host processor core of this automotive controller family is built on power architecture technology. this family contains enhancements that improve the architecture?s fit in embedded applications, includes additional instruction support for digital signal processing (dsp), integrates technologi es ? such as an enhanced time processor unit, enhanced queued analog-to-digital converter, controller area network, and an enhanced modular input-output system ? that are important for today?s lower-end powertrain applications. the device has a single level of memory hierarchy consisting of up to 94 kb on-chip sram and up to 1.5 mb of internal flash memory. the device also has an external bus interface (ebi) for ?calibration?. this external bus interface has been designed to support most of the standard memories us ed with the spc564axx and spc563mxx families. spc563mxx is part of a family of devices that contain many new features coupled with high performance 90 nm cmos technology to provide substantial reduction of cost per feature and significant performance improvement. the host processor core of the spc563mxx complies with the power architecture book e. it is 100% user mode compatible (with floating point library) with the classic power architecture instruction set. the book e architecture has enhancements that improve the power architecture?s fit in embedded applications. in addition to the classic power architecture instruction set, th is core also has additional instruction support for digital signal processing (dsp). introduction spc563mxx 6/48 doc id 13850 rev 6 the spc563mxx has a single level of memory hierarchy consisting of up to 94 kb on-chip sram and up to 1.5 mb of internal flash memory. the spc563mxx also has an external bus interface (ebi) for ?calibration? (b) . on-chip modules include: single issue, 32-bit power architecture technology compliant e200z335 cpu core complex ? includes variable length encoding (vle) enhancements for code size reduction ? floating point unit (fpu) 32-channel direct memory access controller (dma) interrupt controller (intc) capable of handling 364 selectable-priority interrupt sources?191 peripheral interrupt sources, 8 software interrupts and 165 reserved interrupts. frequency-modulated phase-locked loop (fmpll) calibration external bus interface (ebi) b system integration unit (siu) up to 1.5 mb on-chip flash with flash controller ? fetch accelerator for single cycle flash access @80 mhz up to 94 kb on-chip static ram (including up to 32 kb standby ram) boot assist module (bam) 32-channel second-generation enhanced time processor unit (etpu2) ? 32 standard etpu channels ? architectural enhancements to improv e code efficiency and added flexibility 16-channels enhanced modular input-output system (emios) enhanced queued analog-to-digital converter (eqadc) decimation filter (part of eqadc) silicon die temperature sensor two deserial serial peripheral interface (dspi) modules (compatible with microsecond channel) two enhanced serial communication interface (esci) modules compatible with lin two controller area network (flexcan) modules that support can 2.0b nexus port controller (npc) pe r ieee-isto 5001-2003 standard ieee 1149.1 (jtag) support nexus interface on-chip voltage regulator controller that provides 1.2 v and 3.3 v internal supplies from a 5 v external source designed for lqfp100, lqfp144, lqfp176, and lbga208 packages b. the external bus interface is only accessible when us ing the calibration tool. it is not available on production packages. spc563mxx block diagram doc id 13850 rev 6 7/48 2 block diagram figure 1 shows a top-level block diagram of the spc563m64 . figure 1. spc563mxx block diagram pll nexus 2+ mmu nexus sram siu calibration interface edma reset control 62 kb interrupt external imux gpio & engine jtag nexus ram 14 kb/3 kb 2x adci etpu crossbar switch pad control jtag port nexus port analog v stby e200z335 interrupt blocks & edma 64-bit spe 16 ch. dspis emios controller 2x cans 32 ch.+ amux adc bus 3 x 4 bam 32 kb s m m s eqadc nexus 1 peripheral bridge peripheral requests from interrupt request interrupt request edma, flash, bridge b, crossbar, sram configuration etpu i/o clocks serial analog if dma requests from peripheral blocks m instructions data s voltage regulator (1.2v, 3.3v, stb ram) nmi swt pit critical stm nmi siu escis 2x . . . . . . . . . . . . (intc) adc decimation filter cqm temp. sensor 1.5 mb flash s device overview spc563mxx 8/48 doc id 13850 rev 6 3 device overview the following sections provide high level descriptions of the features found on the spc563mxx. 3.1 device comparison table 2. spc563mxx family device summary feature spc563m64 spc563m60p spc563m54p flash memory size (kb) 1536 1024 768 total sram size (kb) 94 64 48 standby sram size (kb) 32 32 24 processor core 32-bit e200z335 with spe and fpu support 32-bit e200z335 with spe and fpu support 32-bit e200z335 with spe and fpu support core frequency (mhz) 64/80 40/64/80 40/64 calibration bus width (1) 16 bits 16 bits ? dma (direct memory access) channels 32 32 32 emios (enhanced modular input-output system) channels 16 16 8 eqadc (enhanced queued analog-to-digital converter) channels (on-chip) up to 34 (2) up to 34 (2) up to 32 (2) esci (serial communication interface) 2 2 2 dspi (deserial serial peripheral interface) 2 2 2 microsecond channel compatible interface 2 2 2 etpu (enhanced time processor unit) yes yes yes channels 32 32 32 code memory (kb) 14 14 14 parameter ram (kb) 3 3 3 flexcan (controller area network) (3) 222 fmpll (frequency-modulated phase-locked loop) yes yes yes intc (interrupt controller) channels 364 (4) 364 (4) 364 (4) jtag controller yes yes yes ndi (nexus development interface) level class 2+ class 2+ class 2+ non-maskable interrupt and critical interrupt yes yes yes pit (peripheral interrupt timers) 5 5 5 task monitor timer 4 channels 4 channels 4 channels temperature sensor yes yes yes spc563mxx device overview doc id 13850 rev 6 9/48 windowing software watchdog yes yes yes packages lqfp144 lqfp176 lqfp100 lqfp144 lqfp176 lqfp100 lqfp144 1. calibration package only. 2. the 176-pin and 208-pin packages have 34 input c hannels; 144-pin package has 32; 100-pin package has 23. 3. one flexcan module has 64 message buffe rs; the other has 32 message buffers. 4. 165 interrupt channels are reserved for compatibility with fu ture devices. this device has 191 peripheral interrupt sources plus 8 software interrupts available to the user. table 2. spc563mxx family device summary (continued) feature spc563m64 spc563m60p spc563m54p device overview spc563mxx 10/48 doc id 13850 rev 6 3.2 feature list operating parameters ? fully static operation, 0 mhz ? 80 mhz (plus 2% frequency modulation - 82 mhz) ? ?40 c to 150 c junction temperature operating range ? low power design less than 400 mw power dissipation (nominal) designed for dynamic power management of core and peripherals software controlled clock gating of peripherals low power stop mode, with all clocks stopped ? fabricated in 90 nm process ? 1.2 v internal logic ? single power supply with 5.0 v ?10% / + 5% (4.5 v to 5.25 v) with internal regulator to provide 3.3 v and 1.2 v for the core ? input and output pins with 5.0 v ?10% / + 5% (4.5 v to 5.25 v) range 35%/65% v dde cmos switch levels (with hysteresis) selectable hysteresis selectable slew rate control ? nexus pins powered by 3.3 v supply ? designed with emi reduction techniques phase-locked loop frequency modulation of system clock frequency on-chip bypass capacitance selectable slew rate and drive strength high performance e200z335 core processor ? 32-bit power architecture book e programmer?s model ? variable length encoding enhancements allows power architecture instruction set to be optionally encoded in a mixed 16 and 32-bit instructions results in smaller code size ? single issue, 32-bit power architecture technology compliant cpu ? in-order execution and retirement ? precise exception handling ? branch processing unit dedicated branch address calculation adder branch acceleration using branch lookahead instruction buffer ? load/store unit one-cycle load latency fully pipelined big and little endian support misaligned access support zero load-to-use pipeline bubbles ? thirty-two 64-bit general purpose registers (gprs) spc563mxx device overview doc id 13850 rev 6 11/48 ? memory management unit (mmu) with 16-entry fully-associative translation look- aside buffer (tlb) ? separate instruction bus and load/store bus ? vectored interrupt support ? interrupt latency < 120 ns @ 80 mhz (measured from interrupt request to execution of first instruction of interrupt exception handler) ? non-maskable interrupt (nmi) input for handling external events that must produce an immediate response, for example, power down detection. on this device, the nmi input is connected to the critical interrupt input. (may not be recoverable) ? critical interrupt input. for external interrupt sources that are higher priority than provided by the interrupt controller. (always recoverable) ? new ?wait for interrupt? instruction, to be used with new low power modes ? reservation instructions for implementing read-modify-write accesses ? signal processing extension (spe) apu operating on all 32 gprs that are all extended to 64 bits wide provides a full compliment of vector and scalar integer and floating point arithmetic operations (including integer vector mac and mul operations) (simd) provides rich array of extended 64-bit loads and stores to/from extended gprs fully code compatible with e200z6 core ? floating point (fpu) ieee 754 compatible wit h software wrapper scalar single precision in hardware, double precision with software library conversion instructions between single precision floating point and fixed point fully code compatible with e200z6 core ? long cycle time instructions, except for guarded loads, do not increase interrupt latency ? extensive system development support through nexus debug port advanced microcontroller bus architecture (amba) crossbar switch (xbar) ? three master ports, four slave ports masters: cpu instruction bus; cpu load/store bus (nexus); edma slave: flash; sram; peripheral bridge; calibration ebi ? 32-bit internal address bus, 64-bit internal data bus enhanced direct memory access (edma) controller ? 32 channels support independent 8-bit, 16-bit, or 32-bit single value or block transfers ? supports variable sized queues and circular queues ? source and destination address registers are independently configured to post- increment or remain constant ? each transfer is initiated by a peripheral, cpu, or edma channel request ? each edma channel can optionally send an interrupt request to the cpu on completion of a single value or block transfer interrupt controller (intc) ? 191 peripheral interrupt request sources ? 8 software setable interrupt request sources device overview spc563mxx 12/48 doc id 13850 rev 6 ?9-bit vector unique vector for each interrupt request source provided by hardware connection to processor or read from register ? each interrupt source can be programmed to one of 16 priorities ?preemption preemptive prioritized interrupt requests to processor isr at a higher priority preempts isrs or tasks at lower priorities automatic pushing or popping of preempted priority to or from a lifo ability to modify the isr or task priority . modifying the priority can be used to implement the priority ceiling protocol for accessing shared resources. ? low latency?three clocks from receipt of interrupt request from peripheral to interrupt request to processor frequency modulating phase-locked loop (fmpll) ? reference clock pre-divider (prediv) for finer frequency synthesis resolution ? reduced frequency divider (rfd) for re ducing the fmpll output clock frequency without forcing the fmpll to re-lock ? system clock divider (sysdiv) for reducing the system clock frequency in normal or bypass mode ? input clock frequency range from 4 mhz to 20 mhz before the pre-divider, and from 4 mhz to 16 mhz at the fmpll input ? voltage controlled oscillator (vco ) range from 256 mhz to 512 mhz ? vco free-running frequency range from 25 mhz to 125 mhz ? four bypass modes: crystal or external reference with pll on or off ? two normal modes: crystal or external reference ? programmable frequency modulation triangle wave modulation register programmable modulation frequency and depth ? lock detect circuitry reports when the fmpll has achieved frequency lock and continuously monitors lock status to report loss of lock conditions user-selectable ability to generate an interrupt request upon loss of lock user-selectable ability to generate a system reset upon loss of lock ? clock quality monitor (cqm) module pr ovides loss-of-clock detection for the fmpll reference and output clocks user-selectable ability to generate an interrupt request upon loss of clock user-selectable ability to generate a system reset upon loss of clock backup clock (reference clock or fmpll free-running) can be applied to the system in case of loss of clock calibration bus interface (ebi) ? available only in the calibration package (496 csp package) ? 1.8 v to 3.3 v 10% i/o (1.6 v to 3.6 v) ? memory controller with support for various memory types ? 16-bit data bus, up to 22-bit address bus ? selectable drive strength spc563mxx device overview doc id 13850 rev 6 13/48 ? configurable bus speed modes ?bus monitor ? configurable wait states system integration unit (siu) ? centralized gpio control of 80 i/o pins ? centralized pad control on a per-pin basis pin function selection configurable weak pull-up or pull-down drive strength slew rate hysteresis ? system reset monitoring and generation ? external interrupt inputs, filtering and control ? critical interrupt control ? non-maskable interrupt control ? internal multiplexer subblock (imux) allows flexible selection of eqadc tr igger inputs (etpu, emios and external signals) allows selection of interrupt requests between external pins and dspi error correction status module (ecsm) ? configurable error-correcting codes (ecc) reporting ? single-bit error correction reporting on-chip flash memory ? up to 1.5 mb flash memory, accessed via a 64-bit wide bus interface ? 16 kb shadow block ? fetch accelerator provide single cycle flash access at 80 mhz quadruple 128-bit wide prefetch/burst buffers prefetch buffers can be configured to prefetch code or data or both ? censorship protection scheme to prevent flash content visibility ? flash divided into two independent arrays, allowing reading from one array while erasing/programming th e other array (used for eeprom emulation) ? memory block: for spc563m64: 18 blocks (4 16 kb, 2 32 kb, 2 64 kb, 10 128 kb) for spc563m60p: 14 blocks (4 16 kb, 2 32 kb, 2 64 kb, 6 128 kb) for spc563m54p: 12 blocks (4 16 kb, 2 32 kb, 2 64 kb, 4 128 kb) ? hardware programming state machine on-chip static ram ? for spc563m64: 94 kb general purpose ram of which 32 kb are on standby power supply ? for spc563m60p: 64 kb general purpose ram of which 32 kb are on standby power supply ? for spc563m54p: 48 kb general purpose ram of which 24 kb are on standby device overview spc563mxx 14/48 doc id 13850 rev 6 power supply boot assist module (bam) ? enables and manages the transition of mcu from reset to user code execution in the following configurations: execution from internal flash memory execution from external memory on the calibration bus download and execution of code via flexcan or esci periodic interrupt timer (pit) ? 32-bit wide down counter with automatic reload ? four channels clocked by system clock ? one channel clocked by crystal clock ? each channel can produce periodic software interrupt ? each channel can produce periodic triggers for eqadc queue triggering ? one channel out of the five can be used as wake-up timer to wake device from low power stop mode system timer module (stm) ? 32-bit up counter with 8-bit prescaler ? clocked from system clock ? four-channel timer compare hardware ? each channel can generate a unique interrupt request ? designed to address autosar task monitor function software watchdog timer (swt) ? 32-bit timer ? clock by system clock or crystal clock ? can generate either system reset or non-maskable interrupt followed by system reset ? enabled out of reset enhanced modular i/o system (emios) ? 16 timer channels (up to 14 channels in lqfp144) ? 24-bit timer resolution ? 3 selectable time bases plus shared time or angle counter bus from etpu2 ? dma and interrupt request support ? motor control capability second-generation enhanced time processor unit (etpu2) ? object-code compatible with etpu?no changes are required to hardware or software if only etpu features are used ? intelligent co-pro cessor designed for timing control ? high level tools, assembler and compiler available ? 32 channels (each channel has dedicated i/o pin in all packages except lqfp100) ? 24-bit timer resolution ? 14 kb code memory and 3 kb data memory ? double match and capture on all channels spc563mxx device overview doc id 13850 rev 6 15/48 ? angle clock hardware support ? shared time or angle counter bus with emios ? dma and interrupt request support ? nexus class 1 debug support ? etpu2 enhancements counters and channels can run at full system clock speed software watchdog real-time performance monitor instruction set enhancements for smaller more flexible code generation programmable channel mode for customization of channel operation enhanced queued a/d converter (eqadc) ? two independent on-chip redundant signed digit (rsd) cyclic adcs 8-, 10-, and 12-bit resolution differential conversions targets up to 10-bit accuracy at 500 ksample/s (adc_clk = 7.5 mhz) and 8-bit accuracy at 1 msample/s (adc_clk = 15 mhz) for differential conversions differential channels include variable gain amplifier (vga) for improved dynamic range ( 1; 2; 4) differential channels include programmable pull-up and pull-down resistors for biasing and sensor diagnostics (200 k ; 100 k ; low value of 5 k ) single-ended signal range from 0 to 5 v sample times of 2 (default), 8, 64 or 128 adc clock cycles provides time stamp information when requested parallel interface to eqadc command fifos (cfifos) and result fifos (rfifos) supports both right-justified unsigned and signed formats for conversion results temperature sensor to enable measurement of die temperature ability to measure all power supply pins directly ? automatic application of adc calibration constants provision of reference voltages (25% vref and 75% vref) for adc calibration purposes ? up to 34 (c) input channels available to the two on-chip adcs ? four pairs of differential analog input channels ? full duplex synchronous serial interface to an external device has a free-running clock for use by the external device supports a 26-bit message length transmits a null message when there are no triggered cfifos with commands bound for external cbuffers, or when there are triggered cfifos with commands bound for external cbuffers but the external cbuffers are full ? ? parallel side interface to communicate with an on-chip companion module c. 176-pin and 208-pin packages have 34 input channels; 144-pin package has 32; 100-pin package has 23. device overview spc563mxx 16/48 doc id 13850 rev 6 ? zero jitter triggering for queue 0. (queue 0 trigger causes current conversion to be aborted and the queued conversions in the cbuffer to be bypassed. delay from trigger to start of conversion is 13 system clocks + 1 adc clock.) ? eqadc result streaming. generation of a continuous stream of adc conversion results from a single eqadc command word. controlled by two different trigger signals; one to define the rate at which results are generated and the other to define the beginning and ending of the stream. used to digitize waveforms during specific time/angle windows, e.g., engine knock sensor sampling. ? angular decimation. the ability of the eq adc to sample an analog waveform in the time domain, perform finite impulse response (fir) or infinite impulse response (iir) filtering also in the time domain, but to down sample the results in the angle domain. resulting in a time domain filtered result at a given engine spc563mxx device overview doc id 13850 rev 6 17/48 angle. ? priority based cfifos supports six cfifos with fixed priority. the lower the cfifo number, the higher its priority. when commands of distinct cfifos are bound for the same cbuffer, the higher priority cfifo is always served first. supports software and several hardware trigger modes to arm a particular cfifo generates interrupt when command coherency is not achieved ? external hardware triggers supports rising edge, falling edge, high level and low level triggers supports configurable digital filter ? supports four external 8-to-1 muxes which can expand the input channel number from 34 (d) to 59 two deserial serial peripheral interface modules (dspi) ?spi full duplex communication ports with interrupt and dma request support support for queues in ram 6 chip selects, expandable to 64 with external demultiplexers programmable frame size, baud rate, clock delay and clock phase on a per frame basis modified spi mode for interfacing to peripherals with longer setup time requirements lvds option for output clock and data to allow higher speed communication ? deserial serial interface (dsi) pin reduction by hardware serialization and deserialization of etpu, emios channels and gpio 32 bits per dspi module triggered transfer control and change in data transfer control (for reduced emi) compatible with microsecond channel version 1.0 downstream two enhanced serial communication interface (esci) modules ? uart mode provides nrz format and half or full duplex interface ? esci bit rate up to 1 mbps ? advanced error detection, and optional parity generation and detection ? word length programmable as 8, 9, 12 or 13 bits ? separately enabled transmitter and receiver ? lin support ? dma support ? interrupt request support ? programmable clock source: syst em clock or o scillator clock ? support microsecond channel (timed serial bus - tsb) upstream version 1.0 tw o f l ex c a n d. 176-pin and 208-ball packages. device overview spc563mxx 18/48 doc id 13850 rev 6 ? one with 32 message buffers; the second with 64 message buffers ? full implementation of the can protocol specification, version 2.0b ? programmable acceptance filters ? short latency time for high priority transmit messages ? arbitration scheme according to message id or message buffer number ? listen only mode capabilities ? programmable clock source: syst em clock or o scillator clock ? message buffers may be configured as mailboxes or as fifo nexus port controller (npc) ? per ieee-isto 5001-2003 ? real time development support for power architecture core and etpu engine through nexus class 2/1 ? read and write access (nexus class 3 feat ure that is supported on this device) run-time access of entire memory map calibration ? support for data value breakpoints / watchpoints run-time access of entire memory map calibration table constants calibrated using mmu and internal and external ram scalar constants calibrat ed using cache line locking ? configured via the ieee 1149.1 (jtag) port ieee 1149.1 jtag controller (jtagc) ? ieee 1149.1-2001 test access port (tap) interface ? 5-bit instruction regist er that supports ieee 1149.1-20 01 defined instructions ? 5-bit instruction register that su pports additional public instructions ? three test data registers: a bypass register, a boundary scan register, and a device identification register ? censorship disable register. by writing the 64-bit serial boot password to this register, censorship may be disabled until the next reset ? tap controller state machine that controls the operation of the data registers, instruction register and associated circuitry on-chip voltage regulator for single 5 v supply operation ? on-chip regulator 5 v to 3.3 v for internal supplies ? on-chip regulator controller 5 v to 1.2 v (with external bypass transistor) for core logic low-power modes ? slow mode. allows device to be run at very low speed (approximately 1 mhz), with modules (including the pll) selectively disabled in software ? stop mode. system clock stopped to all modules including the cpu. wake-up timer used to restart the system clock after a predetermined time spc563mxx device overview doc id 13850 rev 6 19/48 3.3 feature details 3.3.1 e200z335 core the e200z335 processor utilizes a four stage pipeline for instruction execution. the instruction fetch (stage 1), instruction de code/register file r ead/effective address calculation (stage 2), execute/memory access (stage 3), and register writeback (stage 4) stages operate in an overlapped fashion, allowing single clock instruction execution for most instructions. the integer execution unit consists of a 32-bit arithmetic unit (au), a logic unit (lu), a 32- bit barrel shifter (shifter), a mask-insertion un it (miu), a condition register manipulation unit (cru), a count-leading-zeros unit (clz), a 32 32 hardware multip lier array, result feed-forward hardware, and support hardware for division. most arithmetic and logical operations are executed in a single cycle with the exception of the divide instructions. a count-leading-zeros unit operates in a single clock cycle. the instruction unit contains a pc incrementer and a dedicated branch address adder to minimize delays during change of flow operat ions. sequential prefetching is performed to ensure a supply of instructions into the execution pipeline. branch target prefetching is performed to accelerate taken branches. prefetched instructions are placed into an instruction buffer capable of holding six instructions. branches can also be decoded at the instruction buffer and branch target addresses calculated prior to the branch reaching the instruction decode stage, allowing the branch target to be prefetched early. when a branch is detected at the instruction buffer, a prediction may be made on whether the branch is taken or not. if the branch is predicted to be taken, a target fetch is initiated and its target instructions are placed in the instruction buffer following the branch instruction. many branches take zero cycle to execute by using branch folding. branches are folded out from the instruction execution pipe whenever possible. these include unconditional branches and conditional branches with condition codes that can be resolved early. conditional branches which are not taken and not folded execute in a single clock. branches with successful target prefetching which are not folded have an effective execution time of one clock. all other taken branches have an execution time of two clocks. memory load and store operations are provided for byte, halfword, and word (32-bit) data with automatic zero or sign extension of byte and halfword load data as well as optional byte reversal of data. these instructions can be pipelined to allow effective single cycle throughput. load and store multiple word instructions allow low overhead context save and restore operations. the load/store unit contains a dedicated effective address adder to allow effective address generation to be optimized. also, a load-to-use dependency does not incur any pipeline bubbles for most cases. the condition register unit supports the condition register (cr) and condition register operations defined by the power architecture. th e condition register consists of eight 4-bit fields that reflect the results of certain operations, such as move, integer and floating-point compare, arithmetic, and logical instructions, and provide a mechanism for testing and branching. vectored and autovectored interrupts are supported by the cpu. vectored interrupt support is provided to allow multiple interrupt sources to have unique interrupt handlers invoked with no software overhead. the hardware floating-p oint unit utilizes the ieee-754 singl e-precision floati ng-point format and supports single-precision floating-point operations in a pipelined fashion. the general purpose register file is used for source and destination operands, thus there is a unified device overview spc563mxx 20/48 doc id 13850 rev 6 storage model for single-precision floating-point data types of 32 bits and the normal integer type. single-cycle floating-point add, subtract, multiply, compare, and conversion operations are provided. divide instructions ar e multi-cycle and are not pipelined. the signal processing extension (spe) auxiliary processing unit (apu ) provides hardware simd operations and supports a full complement of dual integer arithmetic operation including multiply accumulate (m ac) and dual integer multiply (mul) in a pipelined fashion. the general purpose register file is enhanced such that all 32 of the gprs are extended to 64 bits wide and are used for source and destination operands, thus there is a unified storage model for 32 32 mac operations which generate greater than 32-bit results. the majority of both scalar and vector operations (including mac and mul) are executed in a single clock cycle. both scalar and vector di vides take multiple clocks. the spe apu also provides extended load and store operations to support the transfer of data to and from the extended 64-bit gprs. the cpu includes support for variable length encoding (vle) instruction enhancements. this enables the classic power architecture instruction set to be represented by a modified instruction set made up from a mixture of 16 - and 32-bit instructions. this results in a significantly smaller code size footprint without noticeably affecting performance. the power architecture instruction set an d vle instruction set are available concurrently. regions of the memory map are designated as ppc or vle using an additional configuration bit in each of table look-aside buffers (tlb) entries in the mmu. the cpu core is enhanced by the addition of two additional interrupt sources; non- maskable interrupt and critical interrupt. these two sources are routed directly from package pins, via edge detection logic in the siu to the cpu, bypassing completely the interrupt controller. once the edge detection logic is programmed, it cannot be disabled, except by reset. the non-maskable interrupt is, as the name suggests, completely un- maskable and when asserted will always result in the immediate execution of the respective interrupt service routine. the non-maskable interrupt is not guaranteed to be recoverable. the critical interrupt is very similar to the non-maskable interrupt, but it can be masked by other exceptional interrupts in the cpu and is guaranteed to be recoverable (code execution may be resumed from where it stopped). the cpu core has an additional ?wait for interrupt? instruction that is used in conjunction with low power stop mode. when low power stop mode is selected, this instruction is executed to allow the system clock to be stopped. an external interrupt source or the system wake-up timer is used to restart the system clock and allow the cpu to service the interrupt. 3.3.2 crossbar the xbar multi-port crossbar switch supports simultaneous connections between three master ports and four slave ports. the crossbar supports a 32-bit address bus width and a 64-bit data bus width. the crossbar allows three concurrent transactions to occur from the master ports to any slave port; but each master must access a different slave. if a slave port is simultaneously requested by more than one master port, arbitration logic selects the higher priority master and grants it ownership of the slave port. all other masters requesting that slave port are stalled until the higher priority master completes its transactions. requesting masters are treated with equal priority and are granted access to a slave port in round-robin fashion, spc563mxx device overview doc id 13850 rev 6 21/48 based upon the id of the last master to be granted access. the crossbar provides the following features: 3 master ports: ? e200z335 core complex instruction port ? e200z335 core complex load/store port ?edma 4 slave ports ? flash ? calibration bus ?sram ? peripheral bridge a/b (etpu2, emios, si u, dspi, esci, flexcan, eqadc, bam, decimation filter, pit, stm and swt) 32-bit internal address, 64-bit internal data paths 3.3.3 edma the enhanced direct memory access (edma) controller is a second-generation module capable of performing complex data movements via 32 programmable channels, with minimal intervention from the host processor. the hardware micro architecture includes a dma engine which performs source and destination address calculations, and the actual data movement operations, along with an sram-based memory containing the transfer control descriptors (tcd) for the channels. this implementation is utilized to minimize the overall block size. the edma module provides the following features: all data movement via dual-address transfers: read from source, write to destination programmable source and destination addresses, transfer size, plus support for enhanced addressing modes transfer control descriptor organized to support two-deep, nested transfer operations an inner data transfer loop defined by a ?minor? byte transfer count an outer data transfer loop defined by a ?major? iteration count channel activation via one of three methods: ? explicit software initiation ? initiation via a channel-to-channel linki ng mechanism for continuous transfers ? peripheral-paced hardware requests (one per channel) support for fixed-priority and round-robin channel arbitration channel completion reported via optional interrupt requests 1 interrupt per channel, optionally asserted at completion of major iteration count error termination interrupts are optionally enabled support for scatter/gather dma processing channel transfers can be suspended by a higher priority channel 3.3.4 interrupt controller the intc (interrupt controller) provides priority-based preemptive scheduling of interrupt requests, suitable for statically scheduled hard real-time systems. the intc allows interrupt request servicing from up to 191 peripheral interrupt request sources, plus 165 sources reserved for compatibility with other family members). device overview spc563mxx 22/48 doc id 13850 rev 6 for high priority interrupt requests, the time from the assertion of the interrupt request from the peripheral to when the processor is executing the interrupt service routine (isr) has been minimized. the intc provides a unique vector for each interrupt request source for quick determination of which isr needs to be executed. it also provides an ample number of priorities so that lower priority isrs do not delay the execution of higher priority isrs. to allow the appropriate priorities for each source of interrupt request, the priority of each interrupt request is software configurable. when multiple tasks share a resource, coherent accesses to that resource need to be supported. the intc supports the priority ceiling protocol for coherent accesses. by providing a modifiable priority mask, the priority can be raised temporarily so that all tasks which share the resource can not preempt each other. multiple processors can assert interrupt requests to each other through software setable interrupt requests. these same software setable interrupt requests also can be used to break the work involved in servicing an interrupt request into a high priority portion and a low priority portion. the high priority portion is initiated by a peripheral interrupt request, but then the isr asserts a software setable interrupt request to finish the servicing in a lower priority isr. therefore these software setable interrupt requests can be used instead of the peripheral isr scheduling a task through the rtos. the intc provides the following features: 356 peripheral interrupt request sources 8 software setable interrupt request sources 9-bit vector addresses unique vector for each interrupt request source hardware connection to processor or read from register each interrupt source can be programmed to one of 16 priorities preemptive prioritized interrupt requests to processor isr at a higher priority preempts executing isrs or tasks at lower priorities automatic pushing or popping of preempted priority to or from a lifo ability to modify the isr or ta sk priority to implement the priority ceiling protocol for accessing shared resources low latency?three clocks from receipt of interrupt request from peripheral to interrupt request to processor this device also includes a non-maskable in terrupt (nmi) pin that bypasses the intc and multiplexing logic. 3.3.5 fmpll the fmpll allows the user to generate high speed system clocks from a 4 mhz to 20 mhz crystal oscillator or external clock generator. further, the fmpll supports programmable frequency modulation of the system clock. the pll multiplication factor, output clock divider ratio are all software configurable. spc563mxx device overview doc id 13850 rev 6 23/48 the pll has the following major features: input clock frequency from 4 mhz to 20 mhz voltage controlled oscillator (vco) range from 256 mhz to 512 mhz, resulting in system clock frequencies from 16 mhz to 80 mhz with granularity of 4 mhz or better reduced frequency divider (rfd) for reduced frequency operation without forcing the pll to relock 3 modes of operation ? bypass mode with pll off ? bypass mode with pll running (default mode out of reset) ? pll normal mode each of the three modes may be run with a crystal oscillator or an external clock reference programmable frequency modulation ? modulation enabled/disabled through software ? triangle wave modulation up to 100 khz modulation frequency ? programmable modulation depth (0% to 2% modulation depth) ? programmable modulation frequency dependent on reference frequency lock detect circuitry reports when the pll has achieved frequency lock and continuously monitors lock status to report loss of lock conditions clock quality module ? detects the quality of the crystal clock and cause interrupt request or system reset if error is detected ? detects the quality of the pll output clock. if an error is detected, causes a system reset or switches the system clock to the crystal clock and causes an interrupt request programmable interrupt request or system reset on loss of lock 3.3.6 calibration ebi the calibration ebi controls data transfer across the crossbar switch to/from memories or peripherals attached to the calibration tool connector in the calibration address space. the calibration ebi is only available in the calib ration tool. the calibration ebi includes a memory controller that generates interface signals to support a variety of external memories. the calibration ebi memory controller supports legacy flash, sram, and asynchronous memories. in addition, the calibration ebi supports up to three regions via chip selects (two chip selects are multiplexed with two address bits), along with programmed region-specific attributes. the calibration ebi supports the following features: 22-bit address bus (two most significant signals multiplexed with two chip selects) 16-bit data bus multiplexed mode with addresses and data signals present on the data lines device overview spc563mxx 24/48 doc id 13850 rev 6 note: the calibration ebi must be configured in multiplexed mode when the extended nexus trace is used on the vertical calibration systemcalib ration tool. this is because nexus signals and address lines of the calibration bus share the same balls in the calibration package. memory controller with support for various memory types: ? asynchronous/legacy flash and sram bus monitor ? user selectable ? programmable time-out period (with 8 external bus clock resolution) configurable wait states (via chip selects) 3 chip-select (cal_cs [0], cal_cs [2:3]) signals (multiplexed with 2 most significant address signals) 2 write/byte enable (we[0:1]/be[0:1]) signals configurable bus speed modes ? system frequency ? 1/2 of system frequency ? 1/4 of system frequency optional automatic clkout gating to save power and reduce emi selectable drive strengths; 10 pf, 20 pf, 30 pf, 50 pf 3.3.7 siu the spc563mxx siu controls mcu reset configuration, pad configuration, external interrupt, general purpose i/o (gpio), internal peripheral multiplexing, and the system reset operation. the reset configuration block contains the external pin boot configuration logic. the pad configuration block controls the static electrical characteristics of i/o pins. the gpio block provides uniform and discrete input/output control of the i/o pins of the mcu. the reset controller performs reset monitoring of internal and external reset sources, and spc563mxx device overview doc id 13850 rev 6 25/48 drives the rstout pin. communication between the siu and the e200z335 cpu core is via the crossbar switch. the siu provides the following features: system configuration ? mcu reset configuration via external pins ? pad configuration control for each pad ? pad configuration control for virtual i/o via dspi serialization system reset monitoring and generation ? power-on reset support ? reset status register provides last reset source to software ? glitch detection on reset input ? software controlled reset assertion external interrupt ? 11 interrupt requests ? rising or falling edge event detection ? programmable digital filter for glitch rejection ? critical interrupt request ? non-maskable interrupt request gpio ? gpio function on 80 i/o pins ? virtual gpio on 64 i/o pins via dspi serialization (requires external deserialization device) ? dedicated input and output registers for setting each gpio and virtual gpio pin internal multiplexing ? allows serial and parallel chaining of dspis ? allows flexible selection of eqadc trigger inputs ? allows selection of interrupt requests between external pins and dspi 3.3.8 ecsm the error correction status module provides status information regarding platform memory errors reported by error-correcting codes. 3.3.9 flash devices in the spc563mxx family provide up to 1.5 mb of programmable, non-volatile, flash memory. the non-volatile memory (nvm) can be used for instruction and/or data storage. the flash module includes a fetch accelerator, that optimizes the performance of the flash array to match the cpu architecture and provides single cycle random access to the flash @ 80 mhz. the flash module interfaces the system bus to a dedicated flash memory array controller. for cpu ?loads?, dma transfers and cpu instruction fetch, it supports a 64-bit data bus width at the system bus port, and a 128-bit read data interface to flash memory. the module contains a four-entry, 128-bit prefetch buffer and a prefetch controller which prefetches sequential lines of data from the flash array into the buffer. prefetch buffer hits allow no-wait responses. normal flash array accesses are registered and are forwarded to the system bus on the following cycle, incurrin g three wait-states. prefetch operations may be automatically controlled, and are restricted to instruction fetch. device overview spc563mxx 26/48 doc id 13850 rev 6 the flash memory provides the following features: supports a 64-bit data bus for instructio n fetch, cpu loads and dma access. byte, halfword, word and doubleword reads are supported. only aligned word and doubleword writes are supported. fetch accelerator ? architected to optimize the performance of the flash with the cpu to provide single cycle random access to the flash up to 80 mhz system clock speed ? configurable read buffering and line prefetch support ? four line read buffers (128 bits wide) and a prefetch controller hardware and software configurable read and write access protections on a per-master basis interface to the flash array controller is pipelined with a depth of one, allowing overlapped accesses to proceed in parallel for interleaved or pipelined flash array designs configurable access timing allowing use in a wide range of system frequencies multiple-mapping support and mapping-based block access timing (0-31 additional cycles) allowing use for emulation of other memory types software programmable block program/erase restriction control erase of selected block(s) read page size of 128 bits (four words) ecc with single-bit correction, double-bit detection program page size of 64 bits (two words) ecc single-bit error corrections are visible to software minimum program size is two consecutive 32-bit words, aligned on a 0-modulo-8 byte address, due to ecc embedded hardware program and erase algorithm erase suspend shadow information stored in non-volatile shadow block independent program/erase of the shadow block 3.3.10 sram the spc563mxx sram module provides a general-purpose up to 94 kb memory block. the sram controller includes these features: supports read/write accesses mapped to the sram memory from any master 32 kb or 24 kb block powered by separate supply for standby operation byte, halfword, word and doubleword addressable ecc performs single-bit correction, double-bit detection on 32-bit data element 3.3.11 bam the bam (boot assist module) is a block of read-only memory that is programmed once by st and is identical for all spc563mxx mcus. the bam program is executed every time the spc563mxx device overview doc id 13850 rev 6 27/48 mcu is powered-on or reset in normal mode. the bam supports different modes of booting. they are: booting from internal flash memory serial boot loading (a program is downloaded into ram via esci or the flexcan and then executed) booting from external memory on calibration bus the bam also reads the reset configuration half word (rchw) from internal flash memory and configures the spc563mxx hardware accordingly. the bam provides the following features: sets up mmu to cover all resources and mapping all physical address to logical addresses with minimum address translation sets up the mmu to allow user boot code to execute as either power architecture code (default) or as vle code detection of user boot code automatic switch to serial boot mode if internal flash is blank or invalid supports user programmable 64-bit password protection for serial boot mode supports serial bootloading via flexcan bus and esci using fixed baudrate protocol supports serial bootloading via flexcan bus and esci with auto baud rate sensing supports serial bootloading of either power architecture code (default) or vle code supports booting from calibration bus interface supports censorship protection for internal flash memory provides an option to enable the core watchdog timer provides an option to disable the system watchdog timer 3.3.12 emios the emios (enhanced modular input output system) module provides the functionality to generate or measuretime events. the channels on this module provide a range of operating modes including the capability to perform dual input capture or dual output compare as well as pwm output. device overview spc563mxx 28/48 doc id 13850 rev 6 the emios provides the following features: 16 channels (24-bit timer resolution) for compatibility with other family member s selected channels and timebases are implemented: ? channels 0 to 6, 8 to 15, and 23 ? timebases a, b and c channels 1, 3, 5 and 6 support modes: ? general purpose input/output (gpio) ? single action input capture (saic) ? single action output compare (saoc) channels 2, 4, 11 and 13 support all the modes above plus: ? output pulse width modulation buffered (opwmb) channels 0, 8, 9, 10, 12, 14, 15, 23 support all the modes above plus: ? input period measurement (ipm) ? input pulse width measurement (ipwm) ? double action output compare (set flag on both matches) (daoc) ? modulus counter buffered (mcb) ? output pulse width and frequency modulation buffered (opwfmb) three 24-bit wide counter buses ? counter bus a can be driven by channel 23 or by the etpu2 and all channels can use it as a reference ? counter bus b is driven by channel 0 and channels 0 to 6 can use it as a reference ? counter bus c is driven by channel 8 and channels 8 to 15 can use it as a reference shared time bases with the etpu2 through the counter buses synchronization among internal and external time bases 3.3.13 etpu2 the etpu2 is an enhanced co-processor designed for timing control. operating in parallel with the host cpu, etpu2 processes instructions and real-time input events, performs output waveform generation, and accesses shared data without host intervention. consequently, for each timer event, the host cpu setup and service times are minimized or eliminated. a powerful timer subsystem is formed by combining the etpu2 with its own instruction and data ram. high level asse mbler/compiler and do cumentation allows customers to develop their own functions on the etpu2. spc563mxx device overview doc id 13850 rev 6 29/48 the etpu2 includes these distinctive features: the timer counter (tcr1), channel logic and digital filters (both channel and the external timer clock input [tcrclk]) now have an option to run at full system clock speed or system clock / 2. channels support unordered transitions: transition 2 can now be detected before transition 1. related to this enhancement, the transition detection latches (tdl1 and tdl2) can now be independently negated by microcode. a new user programmable channel mode has been added: the blocking, enabling, service request and capture characteristics of this channel mode can be programmed via microcode. microinstructions now provide an option to issue interrupt and data transfer requests selected by channel. they can also be requested simultaneously at the same instruction. channel flags 0 and 1 can now be tested for branching, in addition to selecting the entry point. channel digital filters can be bypassed. the timer counter (tcr1), channel logic and digital filters (both channel and the external timer clock input [tcrclk]) now have an option to run at full system clock speed or system clock / 2. channels support unordered transitions: transition 2 can now be detected before transition 1. related to this enhancement, the transition detection latches (tdl1 and tdl2) can now be independently negated by microcode. a new user programmable channel mode has been added: the blocking, enabling, service request and capture characteristics of this channel mode can be programmed via microcode. microinstructions now provide an option to issue interrupt and data transfer requests selected by channel. they can also be requested simultaneously at the same instruction. channel flags 0 and 1 can now be tested for branching, in addition to selecting the entry point. channel digital filters can be bypassed. 32 channels, each channel is associated with one input and one output signal ? enhanced input digital filters on the input pins for improved noise immunity. ? identical, orthogonal channels: each channel can perform any time function. each time function can be assigned to more than one channel at a given time, so each signal can have any functionality. ? each channel has an event mechanism which supports single and double action functionality in various combinations. it includes two 24-bit capture registers, two 24-bit match registers, 24-bit greater-equal and equal-only comparators ? input and output signal states visible from the host 2 independent 24-bit time bases for channel synchronization: ? first time base clocked by system clock with programmable pre scale division from 2 to 512 (in steps of 2), or by output of second time base prescaler ? second time base counter can work as a continuous angle counter, enabling angle based applications to match angle instead of time ? both time bases can be exported to the emios timer module ? both time bases visible from the host device overview spc563mxx 30/48 doc id 13850 rev 6 event-triggered microengine: ? fixed-length instruction execution in two-system-clock microcycle ? 14 kb of code memory (scm) ? 3 kb of parameter (data) ram (spram) ? parallel execution of data memory, alu, channel control and flow control sub- instructions in se lected combinations ? 32-bit microengine registers and 24-bit wide alu, with 1 microcycle addition and subtraction, absolute value, bitwise logical operations on 24-bit, 16-bit, or byte operands, single-bit manipulation, shift operations, sign extension and conditional execution ? additional 24-bit multiply /mac/divide unit which supports all signed/unsigned multiply/mac combinations , and unsigned 24-bit divide. the mac/divide unit works in parallel with the regular microcode commands resource sharing features support channel use of common channel registers, memory and microengine time: ? hardware scheduler works as a ?task management? unit, dispatching event service routines by predefined, host-configured priority ? automatic channel context switch when a ?task switch? occurs, i.e., one function thread ends and another begins to servic e a request from other channel: channel- specific registers, flags and parameter base address are automatically loaded for the next serviced channel ? spram shared between host cpu and etpu2, supporting communication either between channels and host or inter-channel ? dual-parameter coherency hardware support allows atomic access to two parameters by host test and development support features: ? nexus class 1 debug, supporting single-step execution, arbitrary microinstruction execution, hardware breakpoints and watchpoints on several conditions ? software breakpoints ? scm continuous signature-check built-i n self test (misc ? multiple input signature calculator), runs concurrently with etpu2 normal operation system enhancements ? software watchdog with programmable timeout ? real-time performance information channel enhancements ? channels 1 and 2 can optionally drive angle clock hardware programming enhancements ? engine relative addressing mode 3.3.14 eqadc the enhanced queued analog to digital converter (eqadc) block provides accurate and fast conversions for a wide range of applications. the eqadc provides a parallel interface to two on-chip analog to digital converters (adc), and a single master to single slave serial interface to an off-chip external device. both on-chip adcs have access to all the analog channels. spc563mxx device overview doc id 13850 rev 6 31/48 the eqadc prioritizes and transfers commands from six command conversion command ?queues? to the on-chip adcs or to the external device. the block can also receive data from the on-chip adcs or from an off-chip external device into the six result queues, in parallel, independently of the command queues. the six command queues are prioritized with queue_0 having the highest priority and queue_5 the lowest. queue_0 also has the added ability to bypass all buffering and queuing and abort a currently running conversion on either adc and start a queue_0 conv ersion. this means that queue_0 will always have a deterministic time from trigger to start of conversion, irrespective of what tasks the adcs were performing when the trigger occurred. the eqadc supports software and external hardware triggers from other blocks to initiate transfers of commands from the queues to the on-chip adcs or to the external device. it also monitors the fullness of command queues and result queues, and accordingly generates dma or interrupt requests to control data movement between the queues and the system memory, which is external to the eqadc. the adcs also support features designed to allow the direct connection of high impedance acoustic sensors that might be used in a system for detecting engine knock. these features include differential inputs; integrated variable gain amplifiers for increasing the dynamic range; programmable pull-up and pull-down resistors for biasing and sensor diagnostics. the eqadc also integrates a programmable decimation filter capable of taking in adc conversion results at a high rate, passing them through a hardware low pass filter, then down-sampling the output of the filter and feeding the lower sample rate results to the result fifos. this allows the adcs to sample the sens or at a rate high enough to avoid aliasing of out-of-band noise; while providing a reduced sample rate output to minimize the amount dsp processing bandwidth required to fully process the digitized waveform. device overview spc563mxx 32/48 doc id 13850 rev 6 the eqadc provides the following features: dual on-chip adcs ?2 12-bit adc resolution ? programmable resolution for increased conversion speed (12 bit, 10 bit, 8 bit) 12-bit conversion time ? 1 s (1m sample/sec) 10-bit conversion time ? 867 ns (1.2m sample/second) 8-bit conversion time ? 733 ns (1.4m sample/second) ? up to 10-bit accuracy at 500 ksample/s and 9-bit accuracy at 1 msample/s ? differential conversions ? single-ended signal range from 0 to 5 v ? variable gain amplifiers on differential inputs ( 1, 2, 4) ? sample times of 2 (default), 8, 64 or 128 adc clock cycles ? provides time stamp information when requested ? parallel interface to eqadc cfifos and rfifos ? supports both right-justified unsigned and signed formats for conversion results up to 34 (e) input channels (accessible by both adcs) 23 additional internal channels for measuring control and monitoring voltages inside the device ? including core voltage, i/o voltage, lvi voltages, etc. an internal bandgap reference to allow absolute voltage measurements 4 pairs of differential analog input channels ? programmable pull-up/pull-down resistors on each differential input for biasing and sensor diagnostic (200 k , 100 k , 5 k ) silicon die temperature sensor ? provides temperature of s ilicon as an analog value ? read using an internal adc analog channel ? may be read with either adc decimation filter ? programmable decimation factor (2 to 16) ? selectable iir or fir filter ? up to 4th order iir or 8th order fir ? programmable coefficients ? saturated or non-saturated modes ? programmable rounding (convergent; two?s complement; truncated) ? pre-fill mode to pre-cond ition the filter before the sample window opens full duplex synchronous serial interface to an external device ? free-running clock for use by an external device ? supports a 26-bit message length priority based queues ? supports six queues with fixed priority. when commands of distinct queues are e. 176-pin and 208-pin packages have 34 input channels; 144-pin package has 32; 100-pin package has 23. spc563mxx device overview doc id 13850 rev 6 33/48 bound for the same adc, the higher priority queue is always served first ? queue_0 can bypass all prioritization, buffering and abort current conversions to start a queue_0 conversion a deterministic time after the queue trigger ? streaming mode operation of queue_0 to execute some commands several times ? supports software and hardware trigger modes to arm a particular queue ? generates interrupt when command coherency is not achieved external hardware triggers ? supports rising edge, falling edge, high level and low level triggers ? supports configurable digital filter supports four external 8-to-1 muxes which can expand the input channels to 56 channels total 3.3.15 dspi the deserial serial peripheral interface (dspi) block provides a synchronous serial interface for communication between the spc563mxx mcu and external devices. the dspi supports pin count reduction through serialization and deserialization of etpu and emios channels and memory-mapped registers. the channels and register content are transmitted using a spi-like protocol. this spi-like protocol is completely configurable for baud rate, polarity and phase, frame length, chip select assertion, etc. each bit in the frame may be configured to serialize either etpu channels, emios channels or gpio signals. the dspi can be configured to serialize data to an external device that supports the microsecond channel protocol. there are two identical dspi blocks on the spc563mxx mcu. the dspi ouput pins support 5 v logic levels or low voltage differential signalling (lvd s) according to the microsecond channel specification. the dspis have three configurations: serial peripheral interface (spi) configuration where the dspi operates as an up to 16- bit spi with support for queues enhanced deserial serial interface (dsi) configuration where dspi serializes up to 32 bits with three possible sources per bit ? etpu, emios, new virtual gpio registers as possible bit source ? programmable inter-frame gap in continuous mode ? bit source selection allows microsecond channel downstream with command or data frames up to 32 bits ? microsecond channel dual receiver mode combined serial interface (csi) configuration where the dspi operates in both spi and dsi configurations interleaving dsi frames with spi frames, giving priority to spi frames for queued operations, the spi queues reside in system memo ry external to the dspi. data transfers between the memory and the dspi fifos are accomplished through the use of the edma controller or through host software. device overview spc563mxx 34/48 doc id 13850 rev 6 the dspi supports these spi features: full-duplex, synchronous transfers selectable lvds pads working at 40 mhz for sout and sck pins master and slave mode buffered transmit operation using the tx fifo with parameterized depth of 4 entries buffered receive operation using the rx fifo with parameterized depth of 4 entries tx and rx fifos can be disabled individually for low-latency updates to spi queues visibility into the tx and rx fifos for ease of debugging fifo bypass mode for low-latency updates to spi queues programmable transfer attributes on a per-frame basis: ? parameterized number of transfer attribute registers (from two to eight) ? serial clock with programmable polarity and phase ? various programmable delays: pcs to sck delay sck to pcs delay delay between frames ? programmable serial frame size of 4 to 16 bits, expandable with software control ? continuously held ch ip select capability 6 peripheral chip selects, expandable to 64 with external demultiplexer deglitching support for up to 32 peripheral chip selects with ex ternal demultiplexer dma support for adding entries to tx fifo and removing entries from rx fifo: ? tx fifo is not full (tfff) ? rx fifo is not empty (rfdf) 6 interrupt conditions: ? end of queue reached (eoqf) ? tx fifo is not full (tfff) ? transfer of current frame complete (tcf) ? attempt to transmit with an empty transmit fifo (tfuf) ? rx fifo is not empty (rfdf) ? fifo underrun (slave only and spi mode, the slave is asked to transfer data when the txfifo is empty) ? fifo overrun (serial frame re ceived while rx fifo is full) modified transfer formats for communication with slower peripheral devices continuous serial communications clock (sck) power savings via support for stop mode enhanced dsi logic to implement a 32-bit timed serial bus (tsb) configuration, supporting the microsecond channel downstream frame format spc563mxx device overview doc id 13850 rev 6 35/48 the dspis also support these features unique to the dsi and csi configurations: 2 sources of the serialized data: ? etpu_a and emios output channels ? memory-mapped register in the dspi destinations for the deserialized data: ? etpu_a and emios input channels ? siu external interrupt request inputs ? memory-mapped register in the dspi deserialized data is provided as parallel output signals and as bits in a memory- mapped register transfer initiation conditions: ? continuous ? edge sensitive hardware trigger ? change in data pin serialization/deserialization with interleaved spi frames for control and diagnostics continuous serial communications clock support for parallel and serial chaining of up to four dspi blocks 3.3.16 esci the enhanced serial communications interface (esci) allows asynchronous serial communications with peripheral devices and othe r mcus. it includes special support to device overview spc563mxx 36/48 doc id 13850 rev 6 interface to local interconnect network (lin) slave devices. the esci block provides the following features: full-duplex operation standard mark/space non-return-to-zero (nrz) format 13-bit baud rate selection programmable 8-bit or 9-bit, data format programmable 12-bit or 13-bit data format for timed serial bus (tsb) configuration to support the microsecond channel upstream automatic parity generation lin support ? autonomous transmission of entire frames ? configurable to support all revisions of the lin standard ? automatic parity bit generation ? double stop bit after bit error ? 10- or 13-bit break support ? separately enabled transmitter and receiver ? programmable transmitter output parity ? 2 receiver wake up methods: idle line wake-up address mark wake-up interrupt-driven operation with flags receiver framing error detection hardware parity checking 1/16 bit-time noise detection dma support for both transmit and receive data ? global error bit stored with receive data in system ram to allow post processing of errors 3.3.17 flexcan the spc563mxx mcu contains two controller area network (flexcan) blocks. the flexcan module is a communication controller implementing the can protocol according to bosch specification version 2.0b. the can protoc ol was designed to be used primarily as a vehicle serial data bus, meeting the specific requirements of this field: real-time processing, reliable operation in the emi environment of a vehicle, cost-effectiveness and required bandwidth. flexcan module ?a? contains 64 message buffers (mb); flexcan module ?c? contains 32 message buffers. spc563mxx device overview doc id 13850 rev 6 37/48 the flexcan module provides the following features: full implementation of the can protocol specification, version 2.0b ? standard data and remote frames ? extended data and remote frames ? zero to eight bytes data length ? programmable bit rate up to 1 mbit/s content-related addressing 64 / 32 message buffers of zero to eight bytes data length individual rx mask register per message buffer each message buffer configurable as rx or tx, all supporting standard and extended messages includes 1056 / 544 bytes of embedded memory for message buffer storage includes a 256-byte and a 128-byte memories for storing individual rx mask registers full featured rx fifo with storage capacity for six frames and internal pointer handling powerful rx fifo id filtering, capable of matching incoming ids against 8 extended, 16 standard or 32 partial (8 bits) id s, with individual masking capability selectable backwards compatibilit y with previous flexcan versions programmable clock source to the can protocol interface, either system clock or oscillator clock listen only mode capability programmable loop-back mode supporting self-test operation 3 programmable mask registers programmable transmit-first scheme: lowest id, lowest buffer number or highest priority time stamp based on 16-bit free-running timer global network time, synchronized by a specific message maskable interrupts warning interrupts when the rx and tx error counters reach 96 independent of the transmission medium (an external transceiver is assumed) multi master concept high immunity to emi short latency time due to an arbitration scheme for high-priority messages low power mode, with programmable wake-up on bus activity 3.3.18 system timers the system timers provide two di stinct types of system timer: periodic interrupts/triggers using the peripheral interrupt timer (pit) operating system task monitors using the system timer module (stm) peripheral interrupt timer (pit) the pit provides five independent timer channels, capable of producing periodic interrupts and periodic triggers. the pit has no external input or output pins and is intended to be used to provide system ?tick? signals to the op erating system, as well as periodic triggers for eqadc queues. of the five channels in the pit, four are clocked by the system clock, one is device overview spc563mxx 38/48 doc id 13850 rev 6 clocked by the crystal clock. this one channel is also referred to as real time interrupt (rti) and is used to wakeup the device from low power stop mode. the following features are implemented in the pit: 5 independent timer channels each channel includes 32-bit wide down counter with automatic reload 4 channels clocked from system clock 1 channel clocked from crystal clock (wake-up timer) wake-up timer remains active when system stop mode is entered. used to restart system clock after predefined time-out period each channel can optionally generate an interrupt request or a trigger event (to trigger eqadc queues) when the timer reaches zero system timer module (stm) the system timer module (stm) is designed to implement the software task monitor as defined by autosar (see http://www.autosar.org ). it consists of a single 32-bit counter, clocked by the system clock, and four independent timer comparators. these comparators produce a cpu interrupt when the timer exceeds the programmed value. the following features are implemented in the stm: one 32-bit up counter with 8-bit prescaler four 32-bit compare channels independent interrupt source for each channel counter can be stopped in debug mode 3.3.19 software watchdog timer (swt) the software watchdog timer (swt) is a second watchdog module to complement the standard power architecture watchdog integrated in the cpu core. the swt is a 32-bit modulus counter, clocked by the system clock or the crystal clock, that can provide a system reset or interrupt request when the correct software key is not written within the required time window. the following features are implemented: 32-bit modulus counter clocked by system clock or crystal clock optional programmable watchdog window mode can optionally cause system reset or interrupt request on timeout reset by writing a software key to memory mapped register enabled out of reset configuration is protected by a software key or a write-once register 3.3.20 debug features nexus port controller the npc (nexus port controller) block provid es real-time developmen t support capabilities for the spc563mxx power architecture-based mcu in compliance with the ieee-isto 5001-2003 standard. this development support is supplied for mcus without requiring spc563mxx device overview doc id 13850 rev 6 39/48 external address and data pins for internal visibility. the npc block is an integration of several individual nexus blocks that are selected to provide the development support interface for spc563mxx. the npc block interf aces to the host processor (e200z335), etpu, and internal buses to provide developm ent support as per t he ieee-isto 5001-2003 standard. the development support provided includes program trace and run-time access to the mcus internal memory map and access to the power architecture and etpu internal registers during halt. the nexus interface also supports a jtag only mode using only the jtag pins. spc563mxx in the production lqfp144 supports a 3.3 v reduced (4-bit wide) auxiliary port. these nexus port pins can also be used as 5 v i/o sig nals to increase usable i/o count of the device. when using this nexus port as io, nexus trace is still possible using calibration tool calibration. in the calibration tool calibration pac kage, the full 12-bit auxiliary port is available. note: in the calibration tool package, the full nexu s auxiliary port shares balls with the addresses of the calibration bus. therefore multiplexed address/data bus mode must be used for the calibration bus when using full width nexu s trace in calibration tool assembly. device overview spc563mxx 40/48 doc id 13850 rev 6 the following features are implemented: 5-pin jtag port (jcomp, tdi, tdo, tms, and tck) ? always available in production package ? supports both jtag boundary scan and debug modes ?3.3v interface ? supports nexus class 1 features ? supports nexus class 3 read/write feature 9-pin reduced port interface in lqfp144 production package ? alternate function as io ? 5 v (in gpio or alternate function mode), 3.3 v (in nexus mode) interface ? auxiliary output port 1 mcko (message clock out) pin 4 mdo (message data out) pins 2 mseo (message start/end out) pins 1 evto (event out) pin ? auxiliary input port 1 evti (event in) pin 17-pin full port interface in calibration package used on calibration tool boards ?3.3v interface ? auxiliary output port 1 mcko (message clock out) pin 4 (reduced port mode) or 12 (full port mode) mdo (message data out) pins; 8 extra full port pins shared with calibration bus 2 mseo (message start/end out) pins 1 evto (event out) pin ? auxiliary input port 1 evti (event in) pin host processor (e200) development support features ? ieee-isto 5001-2003 st andard class 2 compliant ? program trace via branch trace mess aging (btm). branch trace messaging displays program flow discontinuities (direct branches, indirect branches, exceptions, etc.), allowing the development tool to interpolate what transpires between the discontinuities. thus, static code may be traced. ? watchpoint trigger enable of program trace messaging ? data value breakpoints (jtag feature of the e200z335 core): allows cpu to be halted when the cpu writes a specific value to a memory location 4 data value breakpoints cpu only detects ?equal? and ?not equal? byte, half word, word (naturally aligned) spc563mxx device overview doc id 13850 rev 6 41/48 note: this feature is imprec ise due to cpu pipelining. ? subset of power architecture software debug facilities with once block (nexus class 1 features) etpu development support features ? ieee-isto 5001-2003 standard cl ass 1 compliant for the etpu ? nexus based breakpoint configuration and single step support (jtag feature of the etpu) run-time access to the on-chip memory map via the nexus read/write access protocol. this feature supports accesses for run-time internal visibility, calibration variable acquisition, calibration constant tuning, and external rapid prototyping for powertrain automotive development systems. all features are indep endently configurable and contro llable via the ieee 1149.1 i/o port power-on-reset status indication during reset via mdo[0] in disabled and reset modes jtag the jtagc (jtag controller) block provides the means to test chip functionality and connectivity while remaining transparent to system logic when not in test mode. testing is performed via a boundary scan technique, as defined in the ieee 1149.1-2001 standard. all data input to and output from the jtagc block is communicated in serial format. the jtagc block is compliant with the ieee 1149.1-2001 standard and su pports the following features: ieee 1149.1-2001 test access port (tap) interface 4 pins (tdi, tms, tck, and tdo) a 5-bit instruction register that supports the following ieee 1149.1-2001 defined instructions: ? bypass, idcode, extest, sample, sample/preload, highz, clamp a 5-bit instruction register that supports the additional followin g public instructions: ? access_aux_tap_npc ? access_aux_tap_once ? access_aux_tap_etpu ? access_censor 3 test data registers to support jtag boundary scan mode ? bypass register ? boundary scan register ? device identification register a tap controller state machine that controls the operation of the data registers, instruction register and associated circuitry censorship inhibit register ? 64-bit censorship password register ? if the external tool writes a 64-bit password that matches the serial boot password stored in the internal flash shadow row, censorship is disabled until the next system reset. orderable parts spc563mxx 42/48 doc id 13850 rev 6 4 orderable parts table 3. order codes order code flash/sram (kbytes) package speed (mhz) spc563m60l5cpbr 1024 / 64 lqfp144 pb-free 64 spc563m60l5cpby spc563m60l5cpar 1024 / 64 lqfp144 pb-free 80 spc563m60l5cpay spc563m60l7cpbr 1024 / 64 lqfp176 pb-free 64 spc563m60l7cpby spc563m60l7cpar 1024 / 64 lqfp176 pb-free 80 spc563m60l7cpay SPC563M64L5cobr 1536 / 94 lqfp144 pb-free 64 SPC563M64L5coby SPC563M64L5coar 1536 / 94 lqfp144 pb-free 80 SPC563M64L5coay spc563m64l7cobr 1536 / 94 lqfp176 pb-free 64 spc563m64l7coby spc563m64l7coar 1536 / 94 lqfp176 pb-free 80 spc563m64l7coay spc563mxx orderable parts doc id 13850 rev 6 43/48 figure 2. commercial product code structure memory core family y = tray r = tape and reel a = 80 b = 64 c = 40 o = full version p = phantom c = ?40 to 125 c b2 = lbga208 l3 = lqfp100 l5 = lqfp144 l7 = lqfp176 54 = 768 kbytes 60 = 1 mbyte 64 = 1.5 mbytes m = spc563m family 3 = e200z3 spc56 = power architecture-90nm temperature package frequency spc56 64 3m c l5 a example code: product identifier version o conditioning r revision history spc563mxx 44/48 doc id 13850 rev 6 5 revision history table 4. revision history date revision description 30-aug-2007 1 initial release. 7-nov-2007 2 removed: ? - section 5: lqfp144 pinout diagram including figure 2: lqfp144 pinout ? - section 6: lqfp144 pin description including table 3: lqfp144 pin description ? - section 7: lfbga208 ballout di agram including figure 3: lfbga208 ballout added ? - section 5: signal description on page 43 including section 5.1: signal properties summary, table 3: spc563m60 signal properties, section 5.2: detailed signal descriptions, section 5.3: i/o power/ground segmentation and table 4: spc563m60 power/ground segmentation ? - section 6: device pin outs on page 69 including section 6.1: lqfp144 pinout, figure 2: lqfp14 4 pinout, section 6.2: lfbga208 ballout diagram and figure 3: lfbga208 ballout diagram removed parameters d3 and e3 from figure 4: lqfp144 (20 x 20 x 1.40 mm) package me chanical outline: removed minimum and maximum values for parameters d, d1, e and e1 and removed parameters d3 and e3 from table 6: lqfp144 package mechanical data on page 74: added note about lqfp144 package and jedec compliancy to section 8: package information on page 73 13-mar-2009 3 updated document to include info rmation on all members of the spc563mxx family. replaced references to the core (was ?e200z3?, is ?e200z335?) and nexus module (was ?nexus development interface (ndi)?, is ?nexus port controller (npc)?). changed the arrangement of v stby , the standby ram, and the voltage regulator in the block diagram. revised the device-comparison table and feature list. in the ?feature list? section, added ?(for 100- and 144-pin packages)? to the ?single power supply? operating parameter. in the ?feature details? section, repl aced the ci/nmi text in the intc description with information on the nmi only. reformatted company-specific references. added a revision history. formatting, spelling, grammar, and layout corrections. spc563mxx revision history doc id 13850 rev 6 45/48 18-may-2011 4 internal review. block diagram updated: ? test controller removed. device summary (device comparison) table updated: ? the spc563m64 will not be offered in an lqfp100 package. ? footnote added clarifying the number of eqadc channels. feature list: ? ?single power supply? applies to all packages. (previously stated 100- and 144-pin packages) ? ?nexus pins powered by 3.3 v supply? applies to all packages. (previously stated lbga208 and lqfp176 packages) ? calibration pin voltages deleted ? details added to etpu and eqadc features ? emios features updated ? etpu renamed to etpu2; features updated orderable parts table updated table 4. revision history date revision description revision history spc563mxx 46/48 doc id 13850 rev 6 08-jun-2011 5 replaced in all document ?... architec ture book e compliant...? with ?... architecture techno logy compliant...? updated ?introduction?: added ?doc ument overview? and ?description? sections. made the following changes in the ?description? section: ? added ?floating point unit (fpu)? bullet under ?single issue, 32-bit power architecture technology compliant e200z335 cpu core complex?. ? changed ?etpu? to ?etpu2? in the ?32-channel second-generation enhanced time processor unit? sentence. ? changed the ?available in lqfp100, lqfp144, lqfp176 and lbga208? sentence to ?designed for lqfp100, lqfp144, lqfp176, and lbga208 packages?. replaced all instances of ?microsecond bus? with ?microsecond channel?. replaced all instances of ?spc563m54? and ?spc563m60? with ?spc563m54p?and ?spc563m60p?, respectively. changed the ?standby sram size? of the spc563m60p device from ?24? to ?32?. replaced all instances of ?downlink? with ?downstream? and ?uplink? with ?upstream?. made the following changes in the ?flash? section: changed ?program page size of 128 bits (four words) to accelerate programming? to ?program page size of 64 bits (two words)?. changed ?erase suspend, program suspend and erase-suspended program? to ?erase suspend?. made editorial changes in the ?bam? section: updated the conditional tags in the ?supports serial bootloading...? sentences. changed ?shared time bases with the etpu through the counter buses? to ?shared time bases with the etpu2 through the counter buses? in the ?emios? section. removed the following sentences from the ?etpu2? section: ?for monaco 1.5m, the etpu2 has been further enhanced with these features:? ?timebases and channel s are run at full system clock speed? ?programmable channel mode allows customization of channel function? ?more flexibility in requesting dma and interrupt service? ?channel flags can be tested? added the following sentence in the ?e qadc? section under the ?priority based queues? bullet: ?streaming mode operation of queue_0 to execute some commands several times?. changed the following sentences in the ?dspi? section: ?the dspi can be configured ... that implements ... the microsecond bus protocol? to ?the dspi can be conf igured ... that supports ... the microsecond channel protocol?. ?the dspi pins support 5 v logic levels or low voltage differential signalling (lvds) to improve high speed operation.? to ?the dspi ouput pins support 5 v logic levels or low voltage differential signalling (lvds) according to the microsecond channel specification.? table 4. revision history date revision description spc563mxx revision history doc id 13850 rev 6 47/48 08-jun-2011 5 made the following changes in the dspi section: changed ?bus downlink? to ?channel downstream?, ?microsecond bus? to ?microsecond channel?, ?sin? to ?lvds pads are for outputs only?, ?1 to 16? to ?4?, ?bus standard? to ?channel upstream?, and ?17-pin full port interface in calibration tool calibration package? to ?17-pin full port interface in calibration package used on calibration tool boards?. updated the order codes table summary table and figures. changed the ?processor core? information of the spc563m54p device to: ?32-bit e200z335 with spe and fpu support?. added the following to the ?available only in the calibration package? sentence in the features section (496 csp package). 17-sep-2013 6 updated disclaimer table 4. revision history date revision description spc563mxx 48/48 doc id 13850 rev 6 please read carefully: information in this document is provided solely in connection with st products. stmicroelectronics nv and its subsidiaries (?st ?) reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described he rein at any time, without notice. all st products are sold pursuant to st?s terms and conditions of sale. purchasers are solely responsible for the choice, selection and use of the st products and services described herein, and st as sumes no liability whatsoever relating to the choice, selection or use of the st products and services described herein. no license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. i f any part of this document refers to any third party products or services it shall not be deemed a license grant by st for the use of such third party products or services, or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoev er of such third party products or services or any intellectual property contained therein. unless otherwise set forth in st?s terms and conditions of sale st disclaims any express or implied warranty with respect to the use and/or sale of st products including without limitation implied warranties of merchantability, fitness for a particul ar purpose (and their equivalents under the laws of any jurisdiction), or infringement of any patent, copyright or other intellectual property right. st products are not designed or authorized for use in: (a) safety critical applications such as life supporting, active implanted devices or systems with product functional safety requirements; (b) aeronautic applications; (c) automotive applications or environments, and/or (d) aerospace applications or environments. where st products are not designed for such use, the purchaser shall use products at purchaser?s sole risk, even if st has been informed in writing of such usage, unless a product is expressly designated by st as being intended for ? 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