MAXQ3183-RAN+ Maxim Integrated Products, MAXQ3183-RAN+ Datasheet - Page 15

MAXQ3183-RAN+

Manufacturer Part Number

MAXQ3183-RAN+

Description

IC AFE POLYPHASE MULTI 28TSSOP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAXQ3183-RAN.pdf (102 pages)

Specifications of MAXQ3183-RAN+

Number Of Channels

Power (watts)

140mW

Voltage - Supply, Analog

3.6V

Voltage - Supply, Digital

3.6V

Package / Case

28-TSSOP

For Use With

MAXQ3183-KIT - KIT EV REFRNC DSIGN FOR MAXQ3183

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of Bits

Other names

90-M3183+RAN

Current page: 15 of 102
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The MAXQ3183 contains four major subsections: the

analog front-end, the digital signal processor, the preci-

sion pulse generators, and an SPI peripheral for com-

munication to the host processor.

The analog front-end (AFE) is an 8-channel analog-to-

digital converter (ADC). It operates autonomously in the

standard configuration, assigning three channels to

phase A, B, and C voltage; three channels to phase A,

B, and C current; one channel to neutral current; and

the last channel to a temperature sensor.

Each channel also contains a programmable-gain

amplifier capable of providing a gain of 1, 2, 4, 8, 16, or

32 incoming signals. Only the voltage channels permit

gain scaling by the host processor. The MAXQ3183

DSP firmware automatically sets the gain on current

channels.

The DSP code is permanently embedded in masked

ROM and accepts raw current and voltage samples for

each of three phases and continuously calculates a

host of values including RMS volts, RMS amps, real

energy, reactive energy, apparent energy, fundamental

and harmonic energy, and power factor.

The MAXQ3183 DSP core processes incoming sam-

ples from the analog front-end according to user con-

figurations. The host sets these operating parameters

by specifying addresses within the device RAM space.

When a calculation cycle is complete, the results are

placed back into RAM as well. Thus, the DSP core uses

the RAM block as both its input (for operating parame-

ters) and output (for calculation results) medium. See

the SPI Peripheral section for how the host writes oper-

ating parameters and reads results from the RAM.

The DSP also calculates certain values such as line fre-

quency and active and reactive powers only when

demanded by the host.

The MAXQ3183 includes two precision pulse genera-

tors that generate a pulse whenever certain conditions

are met. In the MAXQ3183, many meter quantities can

be selected for conversion to meter pulses including

absolute energy, net energy, reactive energy, voltage,

and current.

The pulse generators are accumulators. On each DSP

cycle, whatever quantity is being measured—real ener-

gy, reactive energy, current, or something else—is

Low-Power, Multifunction, Polyphase AFE

______________________________________________________________________________________

Precision Pulse Generators

Detailed Description

Digital Signal Processor

with Harmonics and Tamper Detect

Analog Front-End

added to the pulse accumulator. The pulse accumula-

tor is then tested to determine if the value in the accu-

mulator is greater than the threshold. If it is greater, the

threshold value is subtracted from the accumulator

value and the meter pulse starts.

The SPI controller is a slave-only device that can read

or write any location in the data RAM. Additionally, it

can request data from on-demand registers.

The MAXQ3183 implements a truly full-duplex commu-

nication, rather than the pseudo half-duplex mode used

by other SPI peripherals. That is, each time a character

is received by the MAXQ3183, a meaningful character

is returned to the host. Often, this is a protocol charac-

ter. In this way, the host can be assured that the com-

mand has been received and is valid. Optional error

checking can also be enabled to further guarantee

proper operation.

The MAXQ3183 has two basic modes of operation,

each of which is described in the following sections.

The Initialization Mode is the default mode upon power-

up or following reset; entry to and exit from the other

operating modes is only performed as a result of com-

mands sent by the master.

This mode is the normal operating mode for the

MAXQ3183. In this mode, the MAXQ3183 continuously

executes the following operations:

• Scans analog front-end channels and collects raw

• Processes voltage and current samples through DSP

• Calculates power, energy, and other required quanti-

• Responds to register write and read commands from

• Outputs power pulses on CFP and CFQ as configured.

• Drives IRQ when an interrupt condition has been

This mode places the MAXQ3183 into a power-saving

state where it consumes the least possible amount of

current. In Stop Mode, all functions are suspended,

including the ADC and power and voltage measurement

and processing. The MAXQ3183 does not respond to

any commands from the master in this operating state.

voltage and current samples.

filters as enabled and configured.

ties and stores these values in RAM registers.

the master.

detected and the interrupt is not masked.

Operating Modes

SPI Peripheral

Stop Mode

Run Mode

MAXQ3183-RAN+ Maxim Integrated Products, MAXQ3183-RAN+ Datasheet - Page 15

MAXQ3183-RAN+

Specifications of MAXQ3183-RAN+

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