ADP1046DC1-EVALZ Analog Devices, ADP1046DC1-EVALZ Datasheet - Page 15

ADP1046DC1-EVALZ

Manufacturer Part Number

ADP1046DC1-EVALZ

Description

Daughter Cards & OEM Boards ADP1046 Daughter Card

Manufacturer

Analog Devices

Series

ADP1046r

Datasheet

1.ADP1046DC1-EVALZ.pdf (92 pages)

Specifications of ADP1046DC1-EVALZ

Rohs

yes

Product

Daughter Cards

Description/function

100 kHz daughter board

Interface Type

I2C

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

Operating Supply Voltage

3.3 V

Factory Pack Quantity

For Use With

ADP1046

Current page: 15 of 92
Download datasheet (2Mb)

Data Sheet

THEORY OF OPERATION

CURRENT SENSE

The

These inputs sense, protect, and control the primary input

current, secondary output current, and the share bus

information. They can be calibrated to reduce errors due to

external components.

CS1 Operation (CS1)

CS1 is typically used for the monitoring and protection of

the primary side current, which is commonly sensed using a

current transformer (CT). The input signal at the CS1 pin is fed

into an ADC for current monitoring. The range of the ADC is

0 V to 1.4 V. The input signal is also fed into a comparator for

pulse-by-pulse OCP protection. The typical configuration for

the CS1 current sense is shown in Figure 13.

OUTA

OUTB

The CS1 ADC is used to measure the average value of the

primary current; the reading is averaged every 2.62 ms in an

asynchronous fashion to make fault decisions. The

also writes the 12-bit CS1 reading every 10 ms to Register 0x13.

The fast OCP comparator is used to limit the instantaneous

primary current within each switching cycle and has a nominal

threshold of 1.2 V.

Various thresholds and limits can be set for CS1, as described in

the Current Sense and Current Limit Registers section.

CS2 Operation (CS2+, CS2−)

CS2+ and CS2− are differential inputs used for the monitoring

and protection of the secondary side current. The full-scale

range of the CS2 ADC is programmable to 60 mV or 120 mV.

The differential inputs are fed into an ADC through a pair of

external resistors that provide the necessary level shifting. The

device pins, CS2+ and CS2−, are internally regulated to approxi-

mately 1 V by internal current sources.

ADP1046

OUTC

OUTD

I = 10A

Figure 13. Current Sense 1 (CS1) Operation

has two current sense inputs: CS1 and CS2±.

1:100

1kΩ

10Ω

I = 100mA

REF

CS1

ADC

ADP1046

12 BITS

FAST

OCP

Rev. B | Page 15 of 92

When using low-side current sensing, the current sources are

200 µA; therefore, the required resistor value is 1 V/200 µA = 5 kΩ.

When using high-side current sensing, the current sources are

2 mA; therefore, the resistor value required is (V

In the case of V

Typical configurations are shown in Figure 14 and Figure 15.

Various thresholds and limits can be set for CS2±, such as OCP.

These thresholds and limits are described in the Current Sense

and Current Limit Registers section.

When not in use, the CS2+ and CS2− inputs should both be

connected directly to PGND, and CS2± should be set to high-

side current sense mode (Register 0x27[2] = 1).

The CS2 ADC is used to measure the CS2 current; the reading

is averaged every 2.62 ms in an asynchronous fashion. This

averaged reading is used to make fault decisions, such as the

CS2 OCP fault. The

reading every 10 ms to Register 0x18.

Figure 15. Low-Side Resistive Current Sense (Recommended)

Figure 14. High-Side Resistive Current Sense

200µA

OUT

CS2–

5kΩ

2mA

= 12 V, the required resistor value is 5.5 kΩ.

5.5kΩ

CS2+

ADP1046

5kΩ

CS2+

200µA

5.5kΩ

CS2–

also writes the 12-bit CS2

2mA

12V

ADC

12 BITS

OUT

12 BITS

ADP1046

− 1 V)/2 mA.

ADP1046DC1-EVALZ Analog Devices, ADP1046DC1-EVALZ Datasheet - Page 15

ADP1046DC1-EVALZ

Specifications of ADP1046DC1-EVALZ

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