HCPL-7520-300 Datasheet HCPL-7520-300E, HCPL-7520-000E, HCPL-7520-060E | P7-P9

Electrical Specications (DC)

Unless otherwise noted, all typicals and gures are at the nominal operation conditions of V

IN+

= 0 V, V

IN-

= 0 V, V

REF

= 4.0 V, V

DD1

= V

DD2

= 5.0 V and T

= 25°C; all Minimum/Maximum specications are within the Recommended Oper-

ating Conditions.

Test

Parameter Symbol Min. Typ. Max. Units Conditions Fig. Note

Input Oset Voltage V

–6 –0.6 6 mV V

IN+

= 0 V 6 1

Magnitude of Input Oset ∆Vos/∆T 8 20 µV/°C V

IN+

= 0 V 7

Change vs. Temperature

Gain G V

REF

/0.512 V

REF

/0.512 V/V -0.2 V < V

IN+

8, 9 2

– 5% /0.512 + 5% < 0.2 V

= 25°C

Magnitude of Gain Change ∆G/∆T 60 300 ppm/°C -0.2 V < V

IN+

vs. Temperature < 0.2 V

OUT

200 mV Nonlinearity NL

200

0.06 0.55 % -0.2 V < V

IN+

10, 3,4

< 0.2 V 11

Magnitude of V

OUT

200 mV |dNL

200

/dT| 0.0004 %/°C -0.2 V < V

IN+

Nonlinearity Change < 0.2 V

vs. Temperature

OUT

100 mV Nonlinearity NL

100

0.04 0.4 % -0.1 V < V

IN+

10, 3,5

< 0.1 V 11

Input Supply Current I

DD1

11.7 16 mA 1,2,3

Output Supply Current I

DD2

9.9 16 mA 1,2,3

Reference Voltage Input I

REF

0.26 1 mA

Current

Input Current I

IN+

–0.6 5 µA V

IN+

= 0 V 4

Magnitude of Input Bias |dI

/dT| 0.45 nA/°C V

IN+

= 0 V

Current vs. Termperature

Coecient

Maximum Input Voltage |V

IN+

MAX

256 mV 5

before V

OUT

Clipping

Equivalent Input Impedance R

700 kΩ

OUT

Output Impedance R

OUT

15 Ω

Input DC Common-Mode CMRR

63 dB 7

Rejection Ratio

Notes:

General Note: Typical values were taken from a sample of nominal units operating at nominal conditions (V

DD1

= V

DD2

= 5 V, V

REF

= 4.0 V, Temperature

= 25°C) unless otherwise stated. Nominal plots shown from Figure 1 to 11 represented the drift of these nominal units from their nominal

operating conditions.

1. Input Oset Voltage is dened as the DC Input Voltage required to obtain an output voltage of V

REF

/2.

2. Gain is dened as the slope of the best-t line of the output voltage vs. the dierential input voltage (V

IN+

- V

IN-

) over the specied input range.

Gain is derived from V

REF

/512 mV; e.g. V

REF

= 5.0, gain will be 9.77 V/V.

3. Nonlinearity is dened as half of the peak-to-peak output deviation from the best-t gain line, expressed as a percentage of the full-scale output

voltage range.

4. NL

200

is the nonlinearity specied over an input voltage range of ±200 mV.

5. NL

100

is the nonlinearity specied over an input voltage range of ±100 mV.

6. In accordance with UL1577, each optocoupler is proof tested by applying an insulation test voltage ≥ 4500 Vrms for 1 second (leakage

detection current limit, I

I-O

≤ 5 µA). This test is performed before the 100% production test for the partial discharge (method b) shown in

IEC/EN/DIN EN 60747-5-2 Insulation Characteristic Table, if applicable.

7. CMRR is dened as the ratio of the dierential signal gain (signal applied dierentially between pins 2 and 3) to the common-mode gain (input

pins tied together and the signal applied to both inputs at the same time), expressed in dB.

Switching Specications (AC)

Over recommended operating conditions unless otherwise specied.

Parameter Symbol Min. Typ. Max. Units Test Conditions Fig. Note

to V

OUT

Signal Delay (50 – 10%) t

PD10

2.2 4 µs V

IN+

= 0 mV to 200 mV step 13

to V

OUT

Signal Delay (50 – 50%) t

PD50

3.4 5 µs V

IN+

= 0 mV to 200 mV step 13

to V

OUT

Signal Delay (50 – 90%) t

PD90

5.2 9.9 µs V

IN+

= 0 mV to 200 mV step 13

OUT

Rise Time (10 – 90%) t

3.0 7 µs V

IN+

= 0 mV to 200 mV step 13

OUT

Fall Time (10 – 90%) t

3.2 7 µs

OUT

Bandwidth (-3 dB) BW 50 100 kHz V

IN+

= 200 mV

pk-pk

OUT

Noise N

OUT

31.5 mVrms V

IN+

= 0 V

Common Mode Transient CMTI 10 15 kV/µs T

= 25°C, V

= 1000 V 15

Immunity

Package Characteristics

Parameter Symbol Min. Typ. Max. Units Test Conditions Fig. Note

Input-Output Momentary V

ISO

3750 V

rms

= 25°C, RH < 50% 6

Withstand Voltage

Input-Output Resistance R

I-O

>10

Ω V

I-O

= 500 V

Input-Output Capacitance C

I-O

1.4 pF Freq = 1 MHz

Figure 1. Supply current vs. supply voltage.

Figure 6. Input oset change vs. supply voltage.Figure 5. Output voltage vs. input voltage.Figure 4. Input current vs. input voltage.

Figure 3. Supply current vs. input voltage.Figure 2. Supply current vs. temperature.

Figure 9. Gain change vs. temperature.Figure 8. Gain change vs. supply voltage.Figure 7. Input oset change vs. temperature.

– SUPPLY CURRENT – mA

– SUPPLY VOLTAGE – V

4.7 4.9

4.5 5.55.3

5.1

DD1

DD2

– TEMPERATURE – °C

9.5

9.0

7.5

-20

11.0

20 80

7.0

10.5

-40 100

8.5

0 40

– SUPPLY CURRENT – mA

DD1

DD2

8.0

10.0

9.0

8.0

5.0

-0.2

12.0

0 0.2

4.0

11.0

-0.3 0.3

7.0

-0.1

– SUPPLY CURRENT – mA

0.1

6.0

10.0

– INPUT VOLTAGE – V

DD1

DD2

-0.4

-0.6

-1.2

-0.2

0.2

0 0.2

-1.4

-0.3 0.3

-0.8

-0.1

– INPUT CURRENT – µA

0.1

-1.0

-0.2

– INPUT VOLTAGE – V

∆VOS – INPUT OFFSET CHANGE – µV

– SUPPLY VOLTAGE – V

1.0

2.5

4.7 4.9

-2.0

4.5 5.55.3

1.5

-1.5

5.1

DD1

DD2

2.0

0.5

-1.0

-0.5

∆V

– INPUT OFFSET CHANGE – mV

– TEMPERATURE – °C

-0.5

-20

2.0

-2.0

1.5

-40 10020 40

-1.5

0.5

0 60

-1.0

1.0

TYPICAL

MAXIMUM

∆GAIN – GAIN CHANGE – %

– SUPPLY VOLTAGE – V

0.010

0.020

4.7 4.9

-0.010

4.5 5.55.3

0.015

0.005

-0.005

5.1

DD1

DD2

– TEMPERATURE – °C

0.3

0.2

-0.2

-20

0.7

20 80

-0.3

0.6

-40 100

0.1

0 40

∆GAIN – GAIN CHANGE – %

-0.1

0.4

0.5

2.5

2.0

0.5

-0.2

4.0

0 0.2

3.5

-0.3 0.3

1.5

-0.1

– OUTPUT VOLTAGE – V

0.1

1.0

3.0

– INPUT VOLTAGE – V

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P16

HCPL-7520-300

Mfr. #:

Buy HCPL-7520-300

Manufacturer:

Broadcom / Avago

Description:

Optically Isolated Amplifiers 4.5 - 5.5 SV +/-5%

Lifecycle:

New from this manufacturer.

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HCPL-7520-300

HCPL-7520-300

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