MAXQ2010 Maxim, MAXQ2010 Datasheet - Page 21

MAXQ2010

Manufacturer Part Number

MAXQ2010

Description

The MAXQ2010 microcontroller is a low-power, 16-bit device that incorporates a high-performance, 12-bit, multichannel ADC and a liquid-crystal display (LCD) interface

Manufacturer

Maxim

Datasheet

1.MAXQ2010.pdf (34 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

MAXQ2010-RFX+

Manufacturer:

Maxim Integrated

Quantity:

10 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

MAXQ2010RFX

Manufacturer:

MAXIM/美信

Quantity:

20 000

Current page: 21 of 34
Download datasheet (443Kb)

The following sections are an introduction to the prima-

ry features of the microcontroller. More detailed

descriptions of the device features can be found in the

errata sheets and user’s guides described later in the

Additional Documentation section.

The MAXQ2010 is a low-cost, high-performance,

CMOS, fully static, 16-bit RISC microcontroller with

flash memory and an integrated LCD controller. The

MAXQ2010 supports up to a 160-segment LCD and

supports 8 channels of high-performance measurement

using a 12-bit successive approximation register (SAR)

ADC with internal reference. The MAXQ2010 is struc-

tured on a highly advanced, accumulator-based, 16-bit

RISC architecture. Fetch and execution operations are

completed in one cycle without pipelining because the

instruction contains both the op code and data. The

result is a streamlined microcontroller performing at up

to one million instructions-per-second (MIPS) for each

MHz of the system operating frequency.

A 16-level hardware stack, enabling fast subroutine

calling and task switching, supports the highly efficient

core. Data can be quickly and efficiently manipulated

with three internal data pointers. Multiple data pointers

allow more than one function to access data memory

without having to save and restore data pointers each

time. The data pointers can automatically increment or

decrement following an operation, eliminating the need

for software intervention. As a result, application speed

is greatly increased.

The instruction set is composed of fixed-length, 16-bit

instructions that operate on registers and memory loca-

tions. The instruction set is highly orthogonal, allowing

arithmetic and logical operations to use any register

along with the accumulator. Special-function registers

control the peripherals and are subdivided into register

modules. The family architecture is modular so that new

devices and modules can reuse code developed for

existing products.

The architecture is transport-triggered, which means

that writes or reads from certain register locations can

also cause side effects to occur. These side effects

form the basis for the higher level op codes defined by

the assembler, such as ADDC, OR, JUMP, etc. The op

codes are actually implemented as MOVE instructions

between certain register locations, while the assembler

handles the encoding, which need not be a concern to

the programmer.

MAXQ Core Architecture

______________________________________________________________________________________

Detailed Description

16-Bit Mixed-Signal Microcontroller

Instruction Set

The 16-bit instruction word is designed for efficient exe-

cution. Bit 15 indicates the format for the source field of

the instruction. Bits 0 to 7 of the instruction represent

the source for the transfer. Depending on the value of

the format field, this can either be an immediate value

or a source register. If this field represents a register,

the lower four bits contain the module specifier and the

upper four bits contain the register index in that mod-

ule. Bits 8 to 14 represent the destination for the trans-

fer. This value always represents a destination register,

with the lower four bits containing the module specifier

and the upper three bits containing the register

subindex within that module. Any time that it is neces-

sary to directly select one of the upper 24 registers as a

destination, the prefix register (PFX) is needed to sup-

ply the extra destination bits. This prefix register write is

inserted automatically by the assembler and requires

only one additional execution cycle.

The device incorporates several memory areas, includ-

ing:

• 4KB utility ROM

• 64KB of flash memory for program storage

• 2KB of SRAM for storage of temporary variables

• 16-level stack memory for storage of program return

The incorporation of flash memory allows the devices to

be reprogrammed multiple times, allowing modifica-

tions to user applications post production. Additionally,

the flash can be used to store application information

including configuration data and log files.

The default memory organization is organized as a

Harvard architecture, with separate address spaces for

program and data memory. Pseudo-Von Neumann

memory organization is supported through the utility

ROM for applications that require dynamic program

modification and execution from RAM. The pseudo-Von

Neumann memory organization places the code, data,

and utility ROM memories into a single contiguous

memory map. See Figure 5 for the memory map.

A 16-bit-wide hardware stack provides storage for pro-

gram return addresses and can also be used as gener-

al-purpose data storage. The stack is used

automatically by the processor when the CALL, RET,

and RETI instructions are executed and when an inter-

rupt is serviced. An application can also store values in

the stack explicitly by using the PUSH, POP, and POPI

instructions.

addresses and general-purpose use

with LCD Interface

Memory Organization

Stack Memory

MAXQ2010 Maxim, MAXQ2010 Datasheet - Page 21

MAXQ2010

Available stocks

Related parts for MAXQ2010