PH9400.111NL Datasheet, PDF(1/2 Page) Pulse A Technitrol Company – High Isolation Gate Drive Transformers

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PH9400.111NL Datasheet, PDF (1/2 Pages) Pulse A Technitrol Company – High Isolation Gate Drive Transformers

High Isolation Gate Drive Transformers

PH9400.XXXNL and PH9400.XXXANL - SMT

Basic and Reinforced Insulation

Patent Pending Sidecar package with 12mm creepage

Up to 5000Vrms gate to drive isolation

600Vrms Voltage rating

Electrical Specifications @ 25Â°C - Operating Temperature -40Â°C to +125Â°C

Part

Number

Core

Turns

ET

Loss

Ratio (V * Âµsec MAX) Factor

K1

PH9400.XXXNL - Basic Insulation

Primary

Inductance

(1-4)

(mH +/-35%)

Leakage

Inductance

Drive to Gate

(ÂµH MAX)

Parasitic

Capacitance

Drive to Gate

(pF MAX)

DCR Drive

(1-4)

(Î© MAX)

DCR Gates

(5-6)

(7-8)

(Î© MAX)

Hi-Pot

Drive-Gate

(Vrms)

Gate-Gate

(Vrms)

PH9400.111NL 1:1:1

315

0.67

4.5

5.0

60

1.8

2.5

4000

1500

PH9400.566NL 5:6:6

315

0.67

4.5

3.5

60

1.8

3.0

4000

1500

PH9400.122NL 1:2:2

250

0.84

2.88

3.5

60

1.5

4.2

4000

1500

PH9400.655NL 6:5:5

375

0.56

6.48

5.3

60

2.2

2.5

4000

1500

PH9400.211NL 2:1:1

375

0.56

6.48

8.0

60

2.2

1.6

4000

1500

PH9400.XXXANL - Reinforced Insulation

PH9400.111ANL 1:1:1

160

1.32

1.21

2.5

45

0.9

0.9

5000

2000

PH9400.566ANL 5:6:6

155

1.36

1.12

3.0

45

0.9

1.0

5000

2000

PH9400.233ANL 2:3:3

125

1.68

0.72

2.0

45

0.7

1.0

5000

2000

PH9400.655ANL 6:5:5

185

1.14

1.62

3.0

45

1.0

0.9

5000

2000

PH9400.211ANL 2:1:1

185

1.14

1.62

3.5

45

1.0

0.55

5000

2000

Notes:

1. The max ET is calculated to limit the core loss and temperature rise at 100KHz based

on a bipolar flux swing of 2100Ga Peak. This value needs to be derated for higher

frequencies using the temperature rise calculation.

2. The temperature rise of the component is calculated based on the total core loss and

copper loss:

A. To calculate total copper loss (W), use the following formula:

Copper Loss (W) = Irms2* (DCR_Drive + (# of Gates) * DCR_Gates)

B. To calculate total core loss (W), use the following formula:

Copper Loss (W) = 5.1E-10 * (Frequency in kHz)1.42 * (K1 * ET) 2.5

Where ET = (V * Duty Cycle) / Frequency

C. To calculate temperature rise, use the following formula:

Temperature Rise (C) = 71 * (Core Loss(W) + Copper Loss (W))

3. ANL versions, which use triple insulated wire on both the drive and gate windings, are

compliant with IEC 60950, IEC 61558, IEC 61010 & IEC 60601 for reinforced insulation.

NL versions, which use triple insulated wire on just the drive winding, comply with basic

insulation requirements.

4. 12mm package creepage distance satisfies IEC60950-1 & IEC61558-1/-2-16 reinforced

insulation requirements for working voltage to 600Vrms max, OVC II, Pollution Degree 2

and altitude up to 2000m.

5. Unless otherwise specified, all testing is made at 100kHz, 0.1VAC.

6. Optional Tape & Reel packaging can be ordered by adding a âTâ suffix to the part number

(i.e. PH9400.111NL becomes PH9400.111NLT). Pulse complies to industry standard tape and

reel specification EIA481.

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P774.C (07/16)

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