CDB5460AU Cirrus Logic Inc, CDB5460AU Datasheet - Page 14

CDB5460AU

Manufacturer Part Number

CDB5460AU

Description

EVALUATION BOARD FOR CS5460A

Manufacturer

Cirrus Logic Inc

Datasheets

1.CS5460A-BSZ.pdf (54 pages)

2.CDB5460AU.pdf (38 pages)

Specifications of CDB5460AU

Main Purpose

Power Management, Energy/Power Meter

Embedded

Yes, MCU, 8-Bit

Utilized Ic / Part

CS5460A

Primary Attributes

1-Phase Current & Voltage Monitoring

Secondary Attributes

Graphical User Interface, SPI™ & USB Interfaces

Processor To Be Evaluated

CS5460A, C8051F320

Interface Type

USB

Operating Supply Voltage

5 V

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Lead Free Status / RoHS Status

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

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full-scale. Note that the 24-bit signed output words

are expressed in two’s complement format. The

24-bit data words in the CS5460A output registers

represent values between 0 and 1 (for unsigned

output registers) or between -1 and +1 (for signed

output registers). A register value of 1 represents

the maximum possible value. Note that a value of

1.0 is never actually obtained in the registers of the

CS5460A. As an illustration, in any of the signed

output registers, the maximum register value is

[(2^23 - 1) / (2^23)] = 0.999999880791. After each

A/D conversion, the CRDY bit will be asserted in

the Status Register, and the INT pin will also be-

come active if the CRDY bit is unmasked (in the

Mask Register). The assertion of the CRDY bit in-

dicates that new instantaneous 24-bit voltage and

current samples have been collected, and these

two samples have also been multiplied together to

provide a corresponding instantaneous 24-bit pow-

er sample.

Table 1 conveys the typical relationship between

the differential input voltage (across the “+” and “-”

input pins of the voltage channel input) and the cor-

responding output code in the Instantaneous Volt-

age Register. Note that this table is applicable for

the current channel if the current channel’s PGA

gain is set for the “10x” gain mode.

-0.5

-1.0

-1.5

-2.0

-2.5

0.5

0.0

Figure 4. Voltage Input Filter Characteristics

200

400

600

Frequency (Hertz)

800

1000 1200 1400

1600 1800 2000

The V

dated every N conversions (which is known as 1

“computation cycle”), where N is the value in the

Cycle Count Register. At the end of each computa-

tion cycle, the DRDY bit in the Mask Register will

be set, and the INT pin will become active if the

DRDY bit is unmasked.

DRDY is set only after each computation cycle has

completed, whereas the CRDY bit is asserted after

each individual A/D conversion. Bits asserted by

the CS5460A must be cleared before being assert-

ed again. If the Cycle Count Register value (N) is

set to 1, all output calculations are instantaneous,

and DRDY will indicate when instantaneous calcu-

lations are finished, just like the CRDY bit. For the

RMS results to be valid, the Cycle-Count Register

must be set to a value greater than 10.

The computation cycle frequency is derived from

the

(MCLK/K)/(1024*N). Under default conditions, with

-44.7 nV to -14.9 nV

-14.9 nV to 14.9 nV

Input Voltage (DC)

14.9 nV to 44.7 nV

Table 1. Differential Input Voltage vs. Output Code

-0.5

-1.5

-2.5

0.5

-1

-2

Figure 5. Current Input Filter Characteristics

+250 mV

-250 mV

master

RMS

200

, I

RMS

400

clock,

, and energy calculations are up-

600

(hexidecimal)

Output Code

800

FFFFFF

7FFFFF

Frequency (Hertz)

000001

000000

800000

and

1000 1200 1400 1600 1800 2000

has

Output Code

CS5460A

(decimal)

-8388608

8388607

value

-1

DS487F4

CDB5460AU Cirrus Logic Inc, CDB5460AU Datasheet - Page 14

CDB5460AU

Specifications of CDB5460AU

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