HCPL-7560-300 Avago Technologies US Inc., HCPL-7560-300 Datasheet - Page 9

HCPL-7560-300

Manufacturer Part Number

HCPL-7560-300

Description

OPTOCOUPLER MODULE 8-SMD GW

Manufacturer

Avago Technologies US Inc.

Series

-r

Type

Sigma-Delta Modulatorr

Datasheet

1.HCPL-7560-500E.pdf (18 pages)

Specifications of HCPL-7560-300

Voltage - Isolation

3750Vrms

Input Type

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-SMD Gull Wing

Lead Free Status / Rohs Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

HCPL-7560-300E

Manufacturer:

AVAGO

Quantity:

40 000

Current page: 9 of 18
Download datasheet (361Kb)

Notes:

1. If V

2. Avago Technologies recommends the use of non-chlorinated sol-

3. Because of the switched-capacitor nature of the isolated modula-

4. CMRR

5. Short-circuit current is the amount of output current generated

6. Data hold time is amount of time that the data output MDAT will

7. Resolution is defined as the total number of output bits. The use-

8. Integral nonlinearity is defined as one-half the peak-to-peak

9. Differential nonlinearity is defined as the deviation of the actual

10. Data sheet value is the average magnitude of the difference in off-

11. Beyond the full-scale input range the output is either all zeroes or

12. The effective number of bits (or effective resolution) is defined by

13. Conversion time is defined as the time from when the convert

internal optical-coupling test mode may be activated. This test

mode is not intended for customer use.

der fluxes.

tor, time averaged values are shown.

plied between V

applied to both V

when either output is shorted to V

conditions is not recommended.

stay stable following the rising edge of output clock MCLK.

able accuracy of any A/D converter is a function of its linearity and

signal-to-noise ratio, rather than how many total bits it has.

deviation of the best-fit line through the transfer curve for V

-200 mV to +200 mV, expressed either as the number of LSBs or as

a percent of measured input range (400 mV).

difference from the ideal difference between midpoints of succes-

sive output codes, expressed in LSBs.

set voltage from T

°C. Three standard deviation from typical value is less than 6µV/°C.

all ones.

the equation ENOB = (SNR-1.76)/6.02 and represents the resolu-

tion of an ideal, quantization-noise limited A/D converter with the

same SNR.

start signal CS is brought low to when SDAT goes high, indicating

that output data is ready to be clocked out. This can be as small

as a few cycles of the isolated modulator clock and is determined

by the frequency of the isolated modulator clock and the selected

Conversion and Pre-Trigger modes. For determining the true

signal delay characteristics of the A/D converter for closed-loop

phase margin calculations, the signal delay specification should

be used.

IN-

(pin 3) is brought above V

is defined as the ratio of the gain for differential inputs ap-

IN+

=25°C to T

and V

IN-

to the gain for common-mode inputs

with respect to input ground GND1.

= 85°C, expressed in microvolts per

DD1

DD2

- 2 V with respect to GND1 an

or GND2. Use under these

IN+

14. Signal delay is defined as the effective delay of the input signal

15. The minimum and maximum overrange detection time is deter-

16. The minimum and maximum threshold detection time is deter-

17. The signal bandwidth is the frequency at which the magnitude

18. The isolation transient immunity (also known as Common-Mode

19. In accordance with UL1577, for devices with minimum V

20. This is a two-terminal measurement: pins 1-4 are shorted together

through the Isolated A/D converter. It can be measured by ap-

plying a -200 mV to ± 200 mV step at the input of modulator and

adjusting the relative delay of the convert start signal CS so that

the output of the converter is at mid scale. The signal delay is the

elapsed time from when the step signal is applied at the input

to when output data is ready at the end of the conversion cycle.

The signal delay is the most important specification for determin-

ing the true signal delay characteristics of the A/D converter and

should be used for determining phase margins in closed-loop

applications. The signal delay is determined by the frequency of

the modulator clock and which Conversion Mode is selected, and

is independent of the selected Pre-Trigger Mode and, therefore,

conversion time.

mined by the frequency of the channel 1 isolated modulator clock.

mined by the user-defined configuration of the adjustable thresh-

old detection circuit and the frequency of the channel 1 isolated

modulator clock. See the Applications Information section for fur-

ther detail. The specified times apply for the default configuration.

of the output signal has decreased 3 dB below its low-frequency

value. The signal bandwidth is determined by the frequency of the

modulator clock and the selected Conversion Mode.

Rejection) specifies the minimum rate-of-rise of an isolation-mode

signal applied across the isolation boundary beyond which the

modulator clock or data signals are corrupted.

fied at 3750 V

tested by applying an insulation test voltage greater than 4500

This test is performed before the Method b, 100% production test

for partial discharge shown in IEC/EN/DIN EN 60747-5-2 Insulation

Characteristics Table.

and pins 5-8 are shorted together.

rms

for one second (leakage current detection limit I

rms

, each isolated modulator (optocoupler) is proof-

I-O

ISO

< 5µA).

speci-

HCPL-7560-300 Avago Technologies US Inc., HCPL-7560-300 Datasheet - Page 9

HCPL-7560-300

Specifications of HCPL-7560-300

Available stocks

Related parts for HCPL-7560-300