EVAL-ADE7816EBZ AD [Analog Devices], EVAL-ADE7816EBZ Datasheet - Page 18

EVAL-ADE7816EBZ

Manufacturer Part Number

EVAL-ADE7816EBZ

Description

Six Current Channels, One Voltage Channel

Manufacturer

AD [Analog Devices]

Datasheet

1.EVAL-ADE7816EBZ.pdf (48 pages)

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ADE7816

CLKIN AND CLKOUT

An external clock or parallel resonant crystal is required to

clock the ADE7816. If an external clock source is being used,

it should be connected to the CLKIN pin. The required clock

frequency for specified operation is 16.384 MHz. Alternatively,

a parallel resonant AT-cut crystal can be connected across the

CLKIN and CLKOUT pins. The

capacitance and, therefore, load capacitors based on the data

sheet of the crystal manufacturer should be added on each pin.

ANALOG INPUTS

Input Pins

The

channels and one voltage channel. Current Channel A, Current

Channel B, and Current Channel C each consist of a pair of dif-

ferential input pins: IAP and IAN, IBP and IBN, and ICP and ICN.

Current Channel D, Current Channel E, and Current Channel F

all share a common reference, IN, and, therefore, are single-ended.

For consistency, it is recommended that all six current inputs be

connected in a single-ended configuration (see Figure 26 and

Figure 27). The voltage channel is a fully differential input that

consists of a pair of inputs: VP and VN. The voltage channel is

typically connected in a single-ended configuration.

The maximum input voltage that should be applied to any input

channel is ±500 mV. The maximum common-mode signal that is

allowed on the inputs is ±25 mV. Figure 25 shows a schematic of

the inputs and their relation to the maximum common-mode

voltage.

ADE7816

+500mV

–500mV

has seven analog inputs that form six current

Figure 25. Maximum Input Level

DIFFERENTIAL INPUT

+ V

COMMON MODE

= 500mV MAX PEAK

= ±25mV MAX

ADE7816

has no internal load

Rev. 0 | Page 18 of 48

PGA Gain

The

be used to amplify the input signals by ×2, ×4, ×8 or ×16. The

PGA gain stage is often required when using a current sensor

that produces a low output voltage, such as Rogowski coils.

PGA1 affects Current Channel A, Current Channel B, and

Current Channel C and is controlled by Bits[2:0] (PGA1) of

the gain register (Address 0xE60F). PGA2 affects the voltage

channel and is controlled by Bits[5:3] (PGA2) of the gain register.

PGA3 affects Current Channel D, Current Channel E, and

Current Channel F and is controlled by Bits[8:6] (PGA3) of

the gain register.

Table 9 lists details on how the PGA gain affects the full-scale

input voltage.

Table 9. PGA Gain

Gain

Digital Integrator

The

when using a di/dt sensor such as a Rogowski coil. This integrator

is enabled by setting the INTEN bit (Bit 0) of the CONFIG register

(Address 0xE618) to 1. When using the digital integrator, the

DICOEFF register (Address 0x4388) should be written to

0xFFF8000. For more details on the theory behind the digital

integrator, refer to the

ADE7816

Full-Scale

Single-Ended

Input (mV)

±500

±250

±125

±62.5

±31.25

has three internal PGA gain amplifiers that can

includes a digital integrator that must be enabled

AN-1137

PGA1[2:0]

000

001

010

011

100

Gain Register (Address 0xE60F)

Application Note.

PGA2[5:3]

000

001

010

011

100

Data Sheet

PGA3[8:6]

000

001

010

011

100

EVAL-ADE7816EBZ AD [Analog Devices], EVAL-ADE7816EBZ Datasheet - Page 18

EVAL-ADE7816EBZ

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