NXP USA Inc.

56800E 56F8xxx Microcontroller IC 16-Bit 32MHz 16KB (8K x 16) FLASH 48-LQFP (7x7)

MC56F8006/MC56F8002 Digital Signal Controller

This document applies to parts marked with 2M53M.

The 56F8006/56F8002 is a member of the 56800E core-based family of digital signal controllers (DSCs). It combines, on a

single chip, the processing power of a DSP and the functionality of a microcontroller with a flexible set of

peripherals to create a cost-effective solution. Because of its low cost, configuration flexibility, and compact program

code, the 56F8006/56F8002 is well-suited for many applications. It includes many peripherals that are especially

useful for cost-sensitive applications, including:

• Industrial control

• Home appliances

• Smart sensors

• Fire and security systems

• Switched-mode power supply and power management

• Power metering

• Motor control (ACIM, BLDC, PMSM, SR, and stepper)

• Handheld power tools

• Arc detection

• Medical device/equipment

• Instrumentation

• Lighting ballast

The 56800E core is based on a dual Harvard-style architecture consisting of three execution units operating in parallel, allowing

as many as six operations per instruction cycle. The MCU-style programming model and optimized instruction set allow

straightforward generation of efficient, compact DSP and control code. The instruction set is also highly efficient for C compilers

to enable rapid development of optimized control applications.

The 56F8006/56F8002 supports program execution from internal memories. Two data operands can be accessed from the on-chip

data RAM per instruction cycle. The 56F8006/56F8002 also offers up to 40 general-purpose input/output (GPIO) lines,

depending on peripheral configuration.

The 56F8006/56F8002 digital signal controller includes up to 16 KB of program flash and 2 KB of unified data/program 

RAM. Program flash memory can be independently bulk erased or erased in small pages of 512 bytes (256 words).

On-chip features include:

• Up to 32 MIPS at 32 MHz core frequency

• DSP and MCU functionality in a unified, C-efficient architecture

• On-chip memory

– 56F8006: 16 KB (8K x 16) flash memory

– 56F8002: 12 KB (6K x 16) flash memory

– 2 KB (1K x 16) unified data/program RAM

• One 6-channel PWM module

• Two 28-channel, 12-bit analog-to-digital converters (ADCs)

• Two programmable gain amplifiers (PGA) with gain up to 32x

• Three analog comparators

• One programmable interval timer (PIT)

• One high-speed serial communication interface (SCI) with

LIN slave functionality

• One serial peripheral interface (SPI)

• One 16-bit dual timer (2 x 16 bit timers)

• One programmable delay block (PDB)

• One SMBus compatible inter-integrated circuit (I2C) port

• One real time counter (RTC)

• Computer operating properly (COP)/watchdog

• Two on-chip relaxation oscillators — 1 kHz and 8 MHz (400 kHz at standby mode)

• Crystal oscillator

• Integrated power-on reset (POR) and low-voltage interrupt (LVI) module

• JTAG/enhanced on-chip emulation (OnCE™) for unobtrusive, real-time debugging

• Up to 40 GPIO lines

• 28-pin SOIC, 32-pin LQFP, 32-pin PSDIP, and 48-pin LQFP packages 

56F8006/56F8002 Features

1 Core

• Efficient 16-bit 56800E family digital signal controller (DSC) engine with dual Harvard architecture

• As many as 32 million instructions per second (MIPS) at 32 MHz core frequency

• 155 basic instructions in conjunction with up to 20 address modes

• Single-cycle 16  16-bit parallel multiplier-accumulator (MAC)

• Four 36-bit accumulators, including extension bits

• 32-bit arithmetic and logic multi-bit shifter

• Parallel instruction set with unique DSP addressing modes

• Hardware DO and REP loops

• Three internal address buses

• Four internal data buses

• Instruction set supports DSP and controller functions

• Controller-style addressing modes and instructions for compact code

• Efficient C compiler and local variable support

• Software subroutine and interrupt stack with depth limited only by memory

• JTAG/enhanced on-chip emulation (EOnCE) for unobtrusive, processor speed–independent, real-time debugging

2 Operation Range

• 1.8 V to 3.6 V operation (power supplies and I/O)

• From power-on-reset: approximately 1.9 V to 3.6 V

• Ambient temperature operating range:

— –40 °C to 125 °C

3 Memory

• Dual Harvard architecture permits as many as three simultaneous accesses to program and data memory

• Flash security and protection that prevent unauthorized users from gaining access to the internal flash

• On-chip memory

— 16 KB of program flash for 56F8006 and 12 KB of program flash for 56F8002

— 2 KB of unified data/program RAM

• EEPROM emulation capability using flash

4 Interrupt Controller

• Five interrupt priority levels

— Three user programmable priority levels for each interrupt source: Level 0, 1, 2

— Unmaskable level 3 interrupts include: illegal instruction, hardware stack overflow, misaligned data access, SWI3

instruction. Maskable level 3 interrupts include: EOnCE step counter, EOnCE breakpoint unit, EOnCE trace

buffer

— Lowest-priority software interrupt: level LP

• Allow nested interrupt that higher priority level interrupt request can interrupt lower priority interrupt subroutine

• The masking of interrupt priority level is managed by the 56800E core

• One programmable fast interrupt that can be assigned to any interrupt source

• Notification to system integration module (SIM) to restart clock out of wait and stop states

• Ability to relocate interrupt vector table

5 Peripheral Highlights

• One multi-function, six-output pulse width modulator (PWM) module

— Up to 96 MHz PWM operating clock

— 15 bits of resolution

— Center-aligned and edge-aligned PWM signal mode

— Phase shifting PWM pulse generation

— Four programmable fault inputs with programmable digital filter

— Double-buffered PWM registers

— Separate deadtime insertions for rising and falling edges

— Separate top and bottom pulse-width correction by means of software

— Asymmetric PWM output within both Center Aligned and Edge Aligned operation

— Separate top and bottom polarity control

— Each complementary PWM signal pair allows selection of a PWM supply source from:

– PWM generator

– Internal timers

– Analog comparator outputs

• Two independent 12-bit analog-to-digital converters (ADCs)

— 2 x 14 channel external inputs plus seven internal inputs

— Support simultaneous and software triggering conversions

— ADC conversions can be synchronized by PWM and PDB modules

— Sampling rate up to 400 KSPS for 10- or 12-bit conversion result; 470 KSPS for 8-bit conversion result

— Two 16-word result registers

• Two programmable gain amplifier (PGAs)

— Each PGA is designed to amplify and convert differential signals to a single-ended value fed to one of the ADC

inputs

— 1X, 2X, 4X, 8X, 16X, or 32X gain

— Software and hardware triggers are available

— Integrated sample/hold circuit

— Includes additional calibration features:

– Offset calibration eliminates any errors in the internal reference used to generate the VDDA/2 output center

point

– Gain calibration can be used to verify the gain of the overall datapath

– Both features require software correction of the ADC result

• Three analog comparators (CMPs)

— Selectable input source includes external pins, internal DACs

— Programmable output polarity

— Output can drive timer input, PWM fault input, PWM source, external pin output, and trigger ADCs

— Output falling and rising edge detection able to generate interrupts

• One dual channel 16-bit multi-purpose timer module (TMR)

— Two independent 16-bit counter/timers with cascading capability

— Up to 96 MHz operating clock

— Each timer has capture and compare and quadrature decoder capability

— Up to 12 operating modes

— Four external inputs and two external outputs

• One serial communication interface (SCI) with LIN slave functionality

— Up to 96 MHz operating clock

— Full-duplex or single-wire operation

— Programmable 8- or 9- bit data format

— Two receiver wakeup methods:

– Idle line

– Address mark

— 1/16 bit-time noise detection

• One serial peripheral interface (SPI)

— Full-duplex operation

— Master and slave modes

— Programmable length transactions (2 to 16 bits)

— Programmable transmit and receive shift order (MSB as first or last bit transmitted)

— Maximum slave module frequency = module clock frequency/2

• One inter-integrated Circuit (I2C) port

— Operates up to 400 kbps

— Supports master and slave operation

— Supports 10-bit address mode and broadcasting mode

— Supports SMBus, Version 2

• One 16-bit programmable interval timer (PIT)

— 16 bit counter with programmable counter modulo

— Interrupt capability

• One 16-bit programmable delay block (PDB)

— 16 bit counter with programmable counter modulo and delay time

— Counter is initiated by positive transition of internal or external trigger pulse

— Supports two independently controlled delay pulses used to synchronize PGA and ADC conversions with input

trigger event

— Two PDB outputs can be ORed together to schedule two conversions from one input trigger event

— PDB outputs can be can be used to schedule precise edge placement for a pulsed output that generates the control

signal for the CMP windowing comparison

— Supports continuous or single shot mode

— Bypass mode supported

• Computer operating properly (COP)/watchdog timer capable of selecting different clock sources

— Programmable prescaler and timeout period

— Programmable wait, stop, and partial powerdown mode operation

— Causes loss of reference reset 128 cycles after loss of reference clock to the PLL is detected

— Choice of clock sources from four sources in support of EN60730 and IEC61508:

– On-chip relaxation oscillator

– External crystal oscillator/external clock source

– System clock (IPBus up to 32 MHz)

– On-chip low power 1 kHz oscillator

• Real-timer counter (RTC)

— 8-bit up-counter

— Three software selectable clock sources

– External crystal oscillator/external clock source

– On-chip low-power 1 kHz oscillator

– System bus (IPBus up to 32 MHz)

— Can signal the device to exit power down mode

• Phase lock loop (PLL) provides a high-speed clock to the core and peripherals

— Provides 3x system clock to PWM and dual timer and SCI

— Loss of lock interrupt

— Loss of reference clock interrupt

• Clock sources

— On-chip relaxation oscillator with two user selectable frequencies: 400 kHz for low speed mode, 8 MHz for

normal operation

— On-chip low-power 1 kHz oscillator can be selected as clock source to the RTC and/or COP

— External clock: crystal oscillator, ceramic resonator, and external clock source

• Power management controller (PMC)

— On-chip regulator for digital and analog circuitry to lower cost and reduce noise

— Integrated power-on reset (POR)

— Low-voltage interrupt with a user selectable trip voltage of 1.81 V or 2.31 V

— User selectable brown-out reset

— Run, wait, and stop modes

— Low-power run, wait, and stop modes

— Partial power down mode

• Up to 40 general-purpose I/O (GPIO) pins

— Individual control for each pin to be in peripheral or GPIO mode

— Individual input/output direction control for each pin in GPIO mode

— Hysteresis and configurable pullup device on all input pins

— Configurable slew rate and drive strength and optional input low pass filters on all output pins

— 20 mA sink/source current

• JTAG/EOnCE debug programming interface for real-time debugging

— IEEE 1149.1 Joint Test Action Group (JTAG) interface

— EOnCE interface for real-time debugging

6 Power Saving Features

• Three low power modes

— Low-speed run, wait, and stop modes: 200 kHz IP bus clock provided by ROSC

— Low-power run, wait, and stop modes: clock provided by external 32–38.4 kHz crystal

— Partial power down mode

• Low power external oscillator can be used in any low-power mode to provide accurate clock to active peripherals

• Low power real time counter for use in run, wait, and stop modes with internal and external clock sources

• 32 s typical wakeup time from partial power down modes

• Each peripheral can be individually disabled to save power

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56800E 56F8xxx Microcontroller IC 16-Bit 32MHz 32KB (16K x 16) FLASH 64-LQFP (10x10)

56F8037/56F8027 Description

The 56F8037/56F8027 is a member of the 56800E core-based family of Digital Signal Controllers (DSCs).

It combines, on a single chip, the processing power of a DSP and the functionality of a microcontroller

with a flexible set of peripherals to create an extremely cost-effective solution. Because of its low cost,

configuration flexibility, and compact program code, the 56F8037/56F8027 is well-suited for many

applications. The 56F8037/56F8027 includes many peripherals that are especially useful for industrial

control, motion control, home appliances, general purpose inverters, smart sensors, fire and security

systems, switched-mode power supply, power management, and medical monitoring applications.

The 56800E core is based on a dual Harvard-style architecture consisting of three execution units

operating in parallel, allowing as many as six operations per instruction cycle. The MCU-style

programming model and optimized instruction set allow straightforward generation of efficient, compact

DSP and control code. The instruction set is also highly efficient for C compilers to enable rapid

development of optimized control applications.

The 56F8037/56F8027 supports program execution from internal memories. Two data operands can be

accessed from the on-chip data RAM per instruction cycle. The 56F8037/56F8027 also offers up to 53

General Purpose Input/Output (GPIO) lines, depending on peripheral configuration.

The 56F8037 Digital Signal Controller includes 64KB of Program Flash and 8KB of Unified

Data/Program RAM. The 56F8027 Digital Signal Controller includes 32KB of Program Flash and 4KB of

Unified Data/Program RAM. Program Flash memory can be independently bulk erased or erased in pages.

Program Flash page erase size is 512 Bytes (256 Words).

A full set of programmable peripherals—PWM, ADCs, QSCIs, QSPIs, I2C, PITs, Quad Timers, DACs

and analog comparators—supports various applications. Each peripheral can be independently shut down

to save power. Any pin in these peripherals can also be used as General Purpose Input/Outputs (GPIOs).

56F8037/56F8027 Features

Digital Signal Controller Core

• Efficient 16-bit 56800E family Digital Signal Controller (DSC) engine with dual Harvard architecture

• As many as 32 Million Instructions Per Second (MIPS) at 32MHz core frequency

• Single-cycle 16  16-bit parallel Multiplier-Accumulator (MAC)

• Four 36-bit accumulators, including extension bits

• 32-bit arithmetic and logic multi-bit shifter

• Parallel instruction set with unique DSP addressing modes

• Hardware DO and REP loops

• Three internal address buses

• Four internal data buses

• Instruction set supports both DSP and controller functions

• Controller-style addressing modes and instructions for compact code

• Efficient C compiler and local variable support

• Software subroutine and interrupt stack with depth limited only by memory

• JTAG/Enhanced On-Chip Emulation (OnCE) for unobtrusive, processor speed-independent, real-time 

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HCS12X HCS12X Microcontroller IC 16-Bit 80MHz 512KB (512K x 8) FLASH 144-LQFP (20x20)

MC9S12XDP512

Covers

S12XD, S12XB & S12XA Families

Introduction

The MC9S12XD family will retain the low cost, power consumption, EMC and code-size efficiency

advantages currently enjoyed by users of Freescale's existing 16-Bit MC9S12 MCU Family.

Based around an enhanced S12 core, the MC9S12XD family will deliver 2 to 5 times the performance of

a 25-MHz S12 whilst retaining a high degree of pin and code compatibility with the S12.

The MC9S12XD family introduces the performance boosting XGATE module. Using enhanced DMA

functionality, this parallel processing module offloads the CPU by providing high-speed data processing

and transfer between peripheral modules, RAM, Flash EEPROM and I/O ports. Providing up to 80 MIPS

of performance additional to the CPU, the XGATE can access all peripherals, Flash EEPROM and the

RAM block.

The MC9S12XD family is composed of standard on-chip peripherals including up to 512 Kbytes of Flash

EEPROM, 32 Kbytes of RAM, 4 Kbytes of EEPROM, six asynchronous serial communications interfaces

(SCI), three serial peripheral interfaces (SPI), an 8-channel IC/OC enhanced capture timer, an 8-channel,

10-bit analog-to-digital converter, a 16-channel, 10-bit analog-to-digital converter, an 8-channel

pulse-width modulator (PWM), five CAN 2.0 A, B software compatible modules (MSCAN12), two

inter-IC bus blocks, and a periodic interrupt timer. The MC9S12XD family has full 16-bit data paths

throughout.

The non-multiplexed expanded bus interface available on the 144-pin versions allows an easy interface to

external memories

The inclusion of a PLL circuit allows power consumption and performance to be adjusted to suit

operational requirements. System power consumption can be further improved with the new “fast exit from

stop mode” feature.

In addition to the I/O ports available in each module, up to 25 further I/O ports are available with interrupt

capability allowing wake-up from stop or wait mode.

Family members in 144-pin LQFP will be available with external bus interface and parts in 112-pin LQFP

or 80-pin QFP package without external bus interface. See Appendix E Derivative Differencesfor package

options.

MC9S12XD/B/A Family Features

• HCS12X Core

— 16-bit HCS12X CPU

– Upward compatible with MC9S12 instruction set

– Interrupt stacking and programmer’s model identical to MC9S12

– Instruction queue

– Enhanced indexed addressing

– Enhanced instruction set

— EBI (external bus interface)

— MMC (module mapping control)

— INT (interrupt controller)

— DBG (debug module to monitor HCS12X CPU and XGATE bus activity)

— BDM (background debug mode)

• XGATE (peripheral coprocessor)

— Parallel processing module off loads the CPU by providing high-speed data processing and

transfer

— Data transfer between Flash EEPROM, RAM, peripheral modules, and I/O ports

• PIT (periodic interrupt timer)

— Four timers with independent time-out periods

— Time-out periods selectable between 1 and 224 bus clock cycles

• CRG (clock and reset generator)

— Low noise/low power Pierce oscillator

— PLL

— COP watchdog

— Real time interrupt

— Clock monitor

— Fast wake-up from stop mode

• Port H & Port J with interrupt functionality

— Digital filtering

— Programmable rising or falling edge trigger

• Memory

— 512, 256 and 128-Kbyte Flash EEPROM

— 4 and 2-Kbyte EEPROM

— 32, 16 and 12-Kbyte RAM

• One 16-channel and one 8-channel ADC (analog-to-digital converter)

— 10-bit resolution

— External and internal conversion trigger capabilityFiveFourTwo 1M bit per second,

CAN 2.0 A, B software compatible modules

— Five receive and three transmit buffers

— Flexible identifier filter programmable as 2 x 32 bit, 4 x 16 bit, or 8 x 8 bit

— Four separate interrupt channels for Rx, Tx, error, and wake-up

— Low-pass filter wake-up function

— Loop-back for self-test operation

• ECT (enhanced capture timer)

— 16-bit main counter with 7-bit prescaler

— 8 programmable input capture or output compare channels

— Four 8-bit or two 16-bit pulse accumulators

• 8 PWM (pulse-width modulator) channels

— Programmable period and duty cycle

— 8-bit 8-channel or 16-bit 4-channel

— Separate control for each pulse width and duty cycle

— Center-aligned or left-aligned outputs

— Programmable clock select logic with a wide range of frequencies

— Fast emergency shutdown input

• Serial interfaces

— SixFourTwo asynchronous serial communication interfaces (SCI) with additional LIN support

and selectable IrDA 1.4 return-to-zero-inverted (RZI) format with programmable pulse width

— ThreeTwo Synchronous Serial Peripheral Interfaces (SPI)

• TwoOne IIC (Inter-IC bus) Modules

— Compatible with IIC bus standard

— Multi-master operation

— Software programmable for one of 256 different serial clock frequencies

• On-Chip Voltage Regulator

— Two parallel, linear voltage regulators with bandgap reference

— Low-voltage detect (LVD) with low-voltage interrupt (LVI)

— Power-on reset (POR) circuit

— 3.3-V–5.5-V operation

— Low-voltage reset (LVR)

— Ultra low-power wake-up timer

• 144-pin LQFP, 112-pin LQFP, and 80-pin QFP packages

— I/O lines with 5-V input and drive capability

— Input threshold on external bus interface inputs switchable for 3.3-V or 5-V operation

— 5-V A/D converter inputs

— Operation at 80 MHz equivalent to 40-MHz bus speed

• Development support

— Single-wire background debug™ mode (BDM)

— Four on-chip hardware breakpoints

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S12 HCS12 Microcontroller IC 16-bit 25MHz 32KB(32K x 8) Flash 20-TSSOP

Introduction

The MC9S12G-Family is an optimized, automotive, 16-bit microcontroller product line focused on

low-cost, high-performance, and low pin-count. This family is intended to bridge between high-end 8-bit

microcontrollers and high-performance 16-bit microcontrollers, such as the MC9S12XS-Family. The

MC9S12G-Family is targeted at generic automotive applications requiring CAN or LIN/J2602

communication. Typical examples of these applications include body controllers, occupant detection, door

modules, seat controllers, RKE receivers, smart actuators, lighting modules, and smart junction boxes.

The MC9S12G-Family uses many of the same features found on the MC9S12XS- and MC9S12P-Family,

including error correction code (ECC) on flash memory, a fast analog-to-digital converter (ADC) and a

frequency modulated phase locked loop (IPLL) that improves the EMC performance. 

The MC9S12G-Family is optimized for lower program memory sizes down to 16k. In order to simplify

customer use it features an EEPROM with a small 4 bytes erase sector size.

The MC9S12G-Family deliver all the advantages and efficiencies of a 16-bit MCU while retaining the low

cost, power consumption, EMC, and code-size efficiency advantages currently enjoyed by users of NXP’s

existing 8-bit and 16-bit MCU families. Like the MC9S12XS-Family, the MC9S12G-Family run 16-bit

wide accesses without wait states for all peripherals and memories. The MC9S12G-Family is available in

100-pin LQFP, 64-pin LQFP, 48-pin LQFP/QFN, 32-pin LQFP and 20-pin TSSOP package options and

aims to maximize the amount of functionality especially for the lower pin count packages. In addition to

the I/O ports available in each module, further I/O ports are available with interrupt capability allowing

wake-up from stop or wait modes.

Chip-Level Features

On-chip modules available within the family include the following features:

• S12 CPU core

• Up to 240 Kbyte on-chip flash with ECC

• Up to 4 Kbyte EEPROM with ECC

• Up to 11 Kbyte on-chip SRAM

• Phase locked loop (IPLL) frequency multiplier with internal filter

• 4–16 MHz amplitude controlled Pierce oscillator

• 1 MHz internal RC oscillator

• Timer module (TIM) supporting up to eight channels that provide a range of 16-bit input capture,

output compare, counter, and pulse accumulator functions

• Pulse width modulation (PWM) module with up to eight x 8-bit channels

• Up to 16-channel, 10 or 12-bit resolution successive approximation analog-to-digital converter

(ADC)

• Up to two 8-bit digital-to-analog converters (DAC)

• Up to one 5V analog comparator (ACMP)

• Up to three serial peripheral interface (SPI) modules

• Up to three serial communication interface (SCI) modules supporting LIN communications

• Up to one multi-scalable controller area network (MSCAN) module (supporting CAN protocol

2.0A/B)

• On-chip voltage regulator (VREG) for regulation of input supply and all internal voltages

• Autonomous periodic interrupt (API)

• Precision fixed voltage reference for ADC conversions

• Optional reference voltage attenuator module to increase ADC accuracy