MCP3905-I/SS Microchip Technology, MCP3905-I/SS Datasheet - Page 10

MCP3905-I/SS

Manufacturer Part Number

MCP3905-I/SS

Description

IC ENERGY METER 24-SSOP

Manufacturer

Microchip Technology

Datasheet

1.MCP3905-ISS.pdf (26 pages)

Specifications of MCP3905-I/SS

Input Impedance

390 KOhm

Measurement Error

0.1%

Voltage - I/o High

2.4V

Voltage - I/o Low

0.85V

Current - Supply

2.7mA

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-SSOP (0.200", 5.30mm Width)

Meter Type

Single Phase

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MCP3905-I/SS

Manufacturer:

MICROCHIP/微芯

Quantity:

20 000

Current page: 10 of 26
Download datasheet (346Kb)

MCP3905/06

3.5

CH1- and CH1+ are the fully differential analog voltage

input channels for the voltage measurement. The linear

and specified region of these channels have a

maximum differential voltage of ±660mV and a

maximum absolute voltage of ±1V, with respect to

the risk of permanent damage.

Refer to Section 1.0 “Electrical Characteristics”.

3.6

MCLR controls the reset for both delta-sigma ADCs, all

digital registers, the SINC filters for each channel and

all accumulators post multiplier. A logic ‘0’ resets all

registers and holds both ADCs in a Reset condition.

The charge stored in both ADCs is flushed and their

output is maintained to 0x0000h. The only block

consuming power on the digital power supply during

Reset is the oscillator circuit.

3.7

REFIN/OUT is the output for the internal 2.4V

reference. This reference has a typical temperature

coefficient of 15 ppm/°C and a tolerance of ±2%. In

addition, an external reference can also be used by

applying voltage to this pin within the specified range.

REFIN/OUT requires appropriate bypass capacitors to

Refer to Section 5.0 “Applications Information”.

3.8

circuitry (ADCs, PGA, band gap reference, POR). To

ensure accuracy and noise cancellation, this pin must

be connected to the same ground as D

with a star connection. If an analog ground plane is

available, it is recommended that this device be tied to

this plane of the Printed Circuit Board (PCB). This

plane should also reference all other analog circuitry in

the system.

3.9

F2, F1 and F0 select the high-frequency output and

low-frequency output pin ranges by changing the

value of the constants F

transfer function. F

constants that define the period of the output pulses

for the device.

3.10

G1 and G0 select the PGA gain on Channel 0 from

three different values: 1, 8 and 16.

DS21948D-page 10

GND

. Up to ±6V can be applied to these pins without

, even when using the internal reference only.

is the ground connection to the internal analog

Voltage Channel (CH1-,CH1+)

Master Clear (MCLR)

Reference (REFIN/OUT)

Analog Ground (A

Frequency Control Logic Pins

(F2, F1, F0)

Gain Control Logic Pins (G1, G0)

and H

GND

are the frequency

used in the device

)

GND

, preferably

3.11

OSC1 and OSC2 provide the master clock for the

device. A resonant crystal or clock source with a similar

sinusoidal waveform must be placed across these pins

to ensure proper operation. The typical clock frequency

specified is 3.579545 MHz. However, the clock

frequency can be with the range of 1 MHz to 4 MHz

without disturbing measurement error. Appropriate

load capacitance should be connected to these pins for

proper operation.

A full-swing, single-ended clock source may be

connected to OSC1 with proper resistors in series to

ensure no ringing of the clock source due to fast

transient edges.

3.12

NEG detects the phase difference between the two

channels and will go to a logic ‘1’ state when the phase

difference is greater than 90° (i.e., when the measured

active (real) power is negative). The output state is syn-

chronous with the rising-edge of HF

the logic ‘1’ until the active (real) power becomes posi-

tive again and HF

3.13

circuitry (SINC filters, multiplier, HPF, LPF, Digital-to-

Frequency (DTF) converter and oscillator). To ensure

accuracy and noise cancellation, D

connected to the same ground as A

with a star connection. If a digital ground plane is

available, it is recommended that this device be tied to

this plane of the PCB. This plane should also reference

all other digital circuitry in the system.

3.14

supplies the instantaneous real-power information. The

output is a periodic pulse output, with its period propor-

tional to the measured active (real) power, and to the

This output is the preferred output for calibration due to

faster output frequencies, giving smaller calibration

times. Since this output gives instantaneous active

(real) power, the 2ω ripple on the output should be

noted. However, the average period will show minimal

drift.

3.15

device that supply the average real-power information.

The outputs are periodic pulse outputs, with its period

proportional to the measured active (real) power, and to

the F

states. These pins include high-output drive capability

for direct use of electromechanical counters and 2-

phase stepper motors. Since this output supplies

average active (real) power, any 2ω ripple on the output

pulse period is minimal.

OUT0

GND

OUT

constant defined by F0, F1 and F2 pin logic states.

is the ground connection to the internal digital

and F

constant, defined by the F0 and F1 pin logic

is the high-frequency output of the device and

Oscillator (OSC1, OSC2)

Negative Power Output Logic Pin

(NEG)

Ground Connection (D

High-Frequency Output (HF

Frequency Output (F

OUT1

OUT

are the frequency outputs of the

shows a pulse.

OUT

OUT0

GND

and maintains

, F

, preferably

)

must be

OUT

OUT1

)

MCP3905-I/SS Microchip Technology, MCP3905-I/SS Datasheet - Page 10

MCP3905-I/SS

Specifications of MCP3905-I/SS

Available stocks

Related parts for MCP3905-I/SS