HCPL-7800-000E Avago Technologies US Inc., HCPL-7800-000E Datasheet - Page 17

HCPL-7800-000E

Manufacturer Part Number

HCPL-7800-000E

Description

OPTOCOUPLER AMP 100KHZ 8-DIP

Manufacturer

Avago Technologies US Inc.

Type

General Purposer

Datasheets

1.HCPL-7800-000E.pdf (18 pages)

2.HCPL-7800-000E.pdf (9 pages)

Specifications of HCPL-7800-000E

Package / Case

8-DIP (0.300", 7.62mm)

Amplifier Type

Isolation

Number Of Circuits

-3db Bandwidth

100kHz

Current - Input Bias

500nA

Voltage - Input Offset

300µV

Current - Supply

10.9mA

Current - Output / Channel

16mA

Voltage - Supply, Single/dual (±)

4.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Through Hole

Number Of Channels

Single

Common Mode Rejection Ratio (min)

76 dB

Available Set Gain

18.31 dB

Input Offset Voltage

2 mV

Operating Supply Voltage

5 V

Supply Current

16 mA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Mounting Style

Through Hole

Supply Voltage (max)

5.5 V

Supply Voltage (min)

4.5 V

Bandwidth

100 kHz

Common Mode Rejection Ratio

Current, Supply

10.86 mA (Input), 11.56 mA (Output)

Package Type

DIP-8

Power Dissipation

600 mW

Propagation Delay

4.99 μs

Slew Rate

Temperature, Operating, Range

-40 to +85 °C

Time, Fall

2.96 μs

Time, Rise

2.96 μs

Voltage, Gain

8 V/V

Voltage, Input

2 V

Voltage, Input Offset

0.3 mV

Voltage, Noise

31.5 mV

Voltage, Supply

5.5 V

No. Of Channels

Isolation Voltage

3.75kV

Optocoupler Output Type

Analog

Input Current

16mA

Output Voltage

3.8V

Opto Case Style

DIP

No. Of Pins

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Output Type

Slew Rate

Gain Bandwidth Product

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

516-1481-5

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Part Number

Manufacturer

Quantity

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Current page: 17 of 18
Download datasheet (307Kb)

FREQUENTLY ASKED QUESTIONS ABOUT

THE HCPL-7800(A)

1. THE BASICS

1.1: Why should I use the HCPL-7800(A) for sensing cur-

rent when Hall-effect sensors are available which don’t

need an isolated supply voltage?

Available in an auto-insertable, 8-pin DIP package, the

HCPL-7800(A) is smaller than and has better linearity,

offset vs. temperature and Common Mode Rejection

(CMR) performance than most Hall-effect sensors. Ad-

ditionally, often the required input-side power supply

can be derived from the same supply that powers the

gate-drive optocoupler.

2. SENSE RESISTOR AND INPUT FILTER

2.1: Where do I get 10 mΩ resistors? I have never seen one

that low.

Although less common than values above 10 Ω, there

are quite a few manufacturers of resistors suitable for

measuring currents up to 50 A when combined with

the HCPL-7800(A). Example product information may be

found at Dale’s web site (http://www.vishay.com/vishay/

dale) and Isotek’s web site (http://www.isotekcorp.com).

2.2: Should I connect both inputs across the sense resistor

instead of grounding V

This is not necessary, but it will work. If you do, be sure

to use an RC filter on both pin 2 (V

limit the input voltage at both pads.

2.3: Do I really need an RC filter on the input? What is it

for? Are other values of R and C okay?

The input anti-aliasing filter (R=39 Ω, C=0.01 µF) shown

in the typical application circuit is recommended for

filtering fast switching voltage transients from the input

signal. (This helps to attenuate higher signal frequencies

which could otherwise alias with the input sampling rate

and cause higher input offset voltage.)

Some issues to keep in mind using different filter resistors

or capacitors are:

1. Filter resistor: Input bias current for pins 2 and 3: This

is on the order of 500 nA. If you are using a single

filter resistor in series with pin 2 but not pin 3 the IxR

drop across this resistor will add to the offset error of

the device. As long as this IR drop is small compared

to the input offset voltage there should not be a

problem. If larger-valued resistors are used in series,

it is better to put half of the resistance in series with

pin 2 and half the resistance in series with pin 3. In

this case, the offset voltage is due mainly to resistor

mismatch (typically less than 1% of the resistance

design value) multiplied by the input bias.

IN-

directly to pin 4?

IN+

) and pin 3 (V

IN-

) to

2. Filter resistor: The equivalent input resistance for

3. The input bandwidth is changed as a result of this

4. Filter capacitance: The input capacitance of the

2.4: How do I ensure that the HCPL-7800(A) is not de-

stroyed as a result of short circuit conditions which cause

voltage drops across the sense resistor that exceed the rat-

ings of the HCPL-7800(A)’s inputs?

Select the sense resistor so that it will have less than 5 V

drop when short circuits occur. The only other require-

ment is to shut down the drive before the sense resistor

is damaged or its solder joints melt. This ensures that the

input of the HCPL-7800(A) can not be damaged by sense

resistors going open-circuit.

3. ISOLATION AND INSULATION

3.1: How many volts will the HCPL-7800(A) withstand?

The momentary (1 minute) withstand voltage is 3750 V

rms per UL 1577 and CSA Component Acceptance Notice

#5.

4. ACCURACY

4.1: Can the signal to noise ratio be improved?

Yes. Some noise energy exists beyond the 100 kHz

bandwidth of the HCPL-7800(A). Additional filtering

using different filter R,C values in the post-amplifier

application circuit can be used to improve the signal

to noise ratio. For example, by using values of R3 = R4

= 10 kΩ, C5 = C6 = 470 pF in the application circuit

the rms output noise will be cut roughly by a factor of

2. In applications needing only a few kHz bandwidth

even better noise performance can be obtained. The

noise spectral density is roughly 500 nV/š Hz below

20 kHz (input referred).

HCPL-7800(A) is around 500 kΩ. It is therefore best

to ensure that the filter resistance is not a significant

percentage of this value; otherwise the offset voltage

will be increased through the resistor divider effect.

[As an example, if R

= 2 mV for a maximum 200 mV input and V

vary with respect to Vin.]

different R-C filter configuration. In fact this is one

of the main reasons for changing the input-filter R-C

time constant.

HCPL-7800(A) is approximately 1.5 pF. For proper

operation the switching input-side sampling

capacitors must be charged from a relatively fixed

(low impedance) voltage source. Therefore, if a filter

capacitor is used it is best for this capacitor to be a

few orders of magnitude greater than the C

value of at least 100 pF works well.)

filt

= 5.5 kΩ, then V

= (Vin * 1%)

INPUT

will

HCPL-7800-000E Avago Technologies US Inc., HCPL-7800-000E Datasheet - Page 17

HCPL-7800-000E

Specifications of HCPL-7800-000E

Available stocks

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