CDB5466U Cirrus Logic Inc, CDB5466U Datasheet - Page 11

CDB5466U

Manufacturer Part Number

CDB5466U

Description

BOARD EVAL & SOFTWARE CS5466 ADC

Manufacturer

Cirrus Logic Inc

Type

A/Dr

Datasheets

1.CS5466-ISZ.pdf (16 pages)

2.CDB5466U.pdf (21 pages)

Specifications of CDB5466U

Main Purpose

Power Management, Energy/Power Meter

Embedded

Yes, MCU, 8-Bit

Utilized Ic / Part

CS5466

Primary Attributes

1-Phase, Energy-to-Frequency Output

Secondary Attributes

Graphical User Interface, USB Interface

Product

Data Conversion Development Tools

Maximum Clock Frequency

4 MHz

Interface Type

USB

Supply Voltage (max)

5 V

Supply Voltage (min)

3.3 V

For Use With/related Products

CS5466

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Contains lead / RoHS non-compliant

Other names

598-1011

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5.1

The CS5466 is equipped with two fully differential input

channels. The inputs VIN± and IIN± are designated as

the voltage and current channel inputs, respectively.

The full-scale differential input voltage for the current

and voltage channel is ±250 mV

5.1.1

The output of the line-voltage resistive divider or trans-

former is connected to the VIN+ and VIN- input pins of

the CS5466. The voltage channel is equipped with a

10x, fixed-gain amplifier. The full-scale signal level that

can be applied to the voltage channel is ±250 mV. If the

input signal is a sine wave, the maximum RMS voltage

is:

which is approximately 70.7% of maximum peak volt-

age.

5.1.2

The output of the current-sense resistor or transformer

is connected to the IIN+ and IIN- input pins of the

CS5466. To accommodate different current-sensing de-

vices, the current channel incorporates programmable

gains which can be set to one of four input ranges. Input

pins IGAIN1 and IGAIN0 (See Table 1) define the four

gain selections and corresponding maximum input sig-

nal level.

For example, if IGAIN1=IGAIN0=0, the current chan-

nel’s gain is set to 10x. If the input signals are pure sinu-

soids with zero phase shift, the maximum peak

differential signal on the current or voltage channel is

±250 mV

70.7% of maximum peak voltage producing a full-scale

energy pulse registration equal to 50% of absolute max-

imum energy pulse registration. This will be discussed

further in Section 5.3

DS659F1

FUNCTIONAL DESCRIPTION

Table 1. Current Channel PGA Setting

Analog Inputs

IGAIN1 IGAIN0

Voltage Channel

Current Channel

. The input signal levels are approximately

250mV

-----------------

Energy Pulse Outputs

≅

176.78mV

±16.67mV

Maximum Input

±250mV

±50mV

±25mV

Range

RMS

100x

150x

10x

50x

on page 11.

5.2

By removing the offset from either channel, no error

component will be generated at DC when computing the

active power. Input pin HPF defines the three options:

5.3

The CS5466 provides three output pins for energy reg-

istration. The E1 and E2 pins provide a simple interface

from which energy can be registered. These pins are

designed to directly connect to a stepper motor or elec-

tromechanical counter. The pulse rate on the E1 and E2

pins are in the range of 0 to 4 Hz and all frequency set-

tings are optimized to be used with standard meter con-

stants. The FOUT pin is designated for system

calibration and the pulse rate can be selected to reach

a frequency of 8000 Hz.

5.3.1

The CS5466 produces alternating pulses on E1 and E2.

This pulse format is designed to drive a stepper motor.

Each pin produces active-low pulses with a minimum

pulse width of 250 ms when MCLK = 4.096 MHz. Refer

rameters.

The FOUT pin issues active-high pulses. The pulse

width is equal to 90 ms (typical), unless the period falls

below 180 ms. At this time the pulses will be equal to

half the period. In mode 3 (FREQ[2:0] = 3), the pulse

width of all FOUT pulses is typically 20 µs regardless of

the pulse rate (MCLK = 4.096 MHz).

5.3.2

The pulse rate on E1 and E2 can be set to one of four

frequency ranges. Input pins FREQ1 and FREQ0 (See

Table 2) determine the maximum frequency on E1 and

E2 for pure sinusoidal inputs with zero phase shift. As

shown in

equal to the frequency of E1 with active-low alternating

pulses.

As discussed in Section 5.1.2

11, the maximum frequency on the E1 and E2 output

pins is equal to the selected frequency in Table 2 if the

maximum peak differential signal applied to both chan-

nels is a sine wave with zero phase shift.

– High-pass Filter (HPF) is disabled when pin HPF is

– HPF is enabled in the voltage channel when pin HPF is

– HPF is enabled in the current channel when pin HPF is

“Switching Characteristics”

connected high.

connected low.

connected to pin FOUT.

High-pass Filter

Energy Pulse Outputs

Pulse Output Format.

Selecting Frequency of E1 and E2

Figure 1 on page

8, the frequency of E2 is

Current Channel

on page 8 for timing pa-

CS5466

on page

CDB5466U Cirrus Logic Inc, CDB5466U Datasheet - Page 11

CDB5466U

Specifications of CDB5466U

Related parts for CDB5466U