PAG6356.082NLT

PCB Transformer, High Isolation, 24V, 5V, 10 W, 1MHz to 2MHz, Single Primary, Single Secondary

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Manufacturer: PULSE ELECTRONICS
Product type: PCB Transformers
SVHC: No SVHC (04-Feb-2026)
Power Rating: 10W
Winding Type: Single Primary, Single Secondary
Product Range: PTPC
Current Rating: 2A
Frequency Range: 1MHz to 2MHz
Primary Voltages: 24V
Isolation Voltage: 5kV
Secondary Voltages: 5V
PCB Transformer Type: High Isolation
Transformer Mounting: Surface Mount

Delivery and price
Units per pack	150
Price	2.06 €
Current stock	200+
Lead time	30 days

Datasheet

High Isolation Power Transformers _EP7 Platform SMD - PAG6356.XXXNLT Series_ 

## a YAGEO company 

_10W Push Pull Transformer_ 

_Designed for TI’s Sn6505x and 1-2 MHz switching frequency Reinforced insulation for isolated power supply driver 8mm creepage and clearance_ 

_5KVrms isolation (Up to 1000Vpk rated voltage)_[5] 

|Electrical Specifications @ 25°C - Operating Temperature -40°C to +125°C<br>Part Number<br>Inductance (1-3)<br>(µH min)<br>Leakage Inductance<br>(µH MAX)<br>DCR (1-3)<br>(ΩMAX)<br>DCR (4-6)<br>(ΩMAX)<br>ET MAX (1-3)1<br>(V-µsec MAX)<br>CAP<br>(pF MAX)<br>Turns Ratio<br>(1-3):(6-4)<br>Isolated Voltage<br>(Vrms)|Electrical Specifications @ 25°C - Operating Temperature -40°C to +125°C<br>Part Number<br>Inductance (1-3)<br>(µH min)<br>Leakage Inductance<br>(µH MAX)<br>DCR (1-3)<br>(ΩMAX)<br>DCR (4-6)<br>(ΩMAX)<br>ET MAX (1-3)1<br>(V-µsec MAX)<br>CAP<br>(pF MAX)<br>Turns Ratio<br>(1-3):(6-4)<br>Isolated Voltage<br>(Vrms)|Electrical Specifications @ 25°C - Operating Temperature -40°C to +125°C<br>Part Number<br>Inductance (1-3)<br>(µH min)<br>Leakage Inductance<br>(µH MAX)<br>DCR (1-3)<br>(ΩMAX)<br>DCR (4-6)<br>(ΩMAX)<br>ET MAX (1-3)1<br>(V-µsec MAX)<br>CAP<br>(pF MAX)<br>Turns Ratio<br>(1-3):(6-4)<br>Isolated Voltage<br>(Vrms)|Electrical Specifications @ 25°C - Operating Temperature -40°C to +125°C<br>Part Number<br>Inductance (1-3)<br>(µH min)<br>Leakage Inductance<br>(µH MAX)<br>DCR (1-3)<br>(ΩMAX)<br>DCR (4-6)<br>(ΩMAX)<br>ET MAX (1-3)1<br>(V-µsec MAX)<br>CAP<br>(pF MAX)<br>Turns Ratio<br>(1-3):(6-4)<br>Isolated Voltage<br>(Vrms)|Electrical Specifications @ 25°C - Operating Temperature -40°C to +125°C<br>Part Number<br>Inductance (1-3)<br>(µH min)<br>Leakage Inductance<br>(µH MAX)<br>DCR (1-3)<br>(ΩMAX)<br>DCR (4-6)<br>(ΩMAX)<br>ET MAX (1-3)1<br>(V-µsec MAX)<br>CAP<br>(pF MAX)<br>Turns Ratio<br>(1-3):(6-4)<br>Isolated Voltage<br>(Vrms)|Electrical Specifications @ 25°C - Operating Temperature -40°C to +125°C<br>Part Number<br>Inductance (1-3)<br>(µH min)<br>Leakage Inductance<br>(µH MAX)<br>DCR (1-3)<br>(ΩMAX)<br>DCR (4-6)<br>(ΩMAX)<br>ET MAX (1-3)1<br>(V-µsec MAX)<br>CAP<br>(pF MAX)<br>Turns Ratio<br>(1-3):(6-4)<br>Isolated Voltage<br>(Vrms)|Electrical Specifications @ 25°C - Operating Temperature -40°C to +125°C<br>Part Number<br>Inductance (1-3)<br>(µH min)<br>Leakage Inductance<br>(µH MAX)<br>DCR (1-3)<br>(ΩMAX)<br>DCR (4-6)<br>(ΩMAX)<br>ET MAX (1-3)1<br>(V-µsec MAX)<br>CAP<br>(pF MAX)<br>Turns Ratio<br>(1-3):(6-4)<br>Isolated Voltage<br>(Vrms)|Electrical Specifications @ 25°C - Operating Temperature -40°C to +125°C<br>Part Number<br>Inductance (1-3)<br>(µH min)<br>Leakage Inductance<br>(µH MAX)<br>DCR (1-3)<br>(ΩMAX)<br>DCR (4-6)<br>(ΩMAX)<br>ET MAX (1-3)1<br>(V-µsec MAX)<br>CAP<br>(pF MAX)<br>Turns Ratio<br>(1-3):(6-4)<br>Isolated Voltage<br>(Vrms)|Electrical Specifications @ 25°C - Operating Temperature -40°C to +125°C<br>Part Number<br>Inductance (1-3)<br>(µH min)<br>Leakage Inductance<br>(µH MAX)<br>DCR (1-3)<br>(ΩMAX)<br>DCR (4-6)<br>(ΩMAX)<br>ET MAX (1-3)1<br>(V-µsec MAX)<br>CAP<br>(pF MAX)<br>Turns Ratio<br>(1-3):(6-4)<br>Isolated Voltage<br>(Vrms)|
|---|---|---|---|---|---|---|---|---|
|PAG6356.081NLT|200|6.0|0.56|0.12|21|4<br>6<br>9<br>10|8CT : 1CT|5000|
|PAG6356.082NLT||2.3||0.18|||8CT : 2CT||
|PAG6356.085NLT||0.9||0.36|||8CT : 5CT||
|PAG6356.086NLT||0.8||0.40|||8CT : 6CT||



## **Notes:** 

1. The ET Max is calculated to limit the core loss and temperature rise at 1MHz based on a bipolar flux swing of 61mT Peak. 

2. For Push-Pull topology, where the voltage is applied across half the primary winding turns, the ET needs to be derated by 50% for the same flux swing. 

3. The applied ET may need to be further derated for higher frequencies based on the temperature rise which results from the core and copper losses 

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

- Copper Loss (W) = Irms_Primary[2] * DCR_Primary + Irms_Secondary[2] *DCR_Secondary 

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

Core Loss (W) = 5.42E-11 * (Frequency in kHz)[2.0325] * (61 * [ET/ET Max])[2.018] 

- Where ET is the applied Volt Second, ET Max is the rated Volt Second for 140mT flex swing C. To calculate temperature rise, use the following formula: Temperature Rise (°C) = 140 * (Core Loss(W) + Copper Loss (W)) 

4. Creepage and clearance is in accordance with IEC 61558-1 for reinforced insulation to a working voltage of 400Vrms (for basic insulation to a working voltage of 800Vrms) based on material group III, pollution degree 2, OVC II and 5000m altitude. 

5. Rated voltage is based on a positive partial discharge test (discharge < 10pC) for the profile shown in page 3, in accordance with IEC60664 for basic insulation. In an application which requires a reinforced insulation barrier, a rated voltage of the equivalent peak working voltage, 880Vpk, is defined and confirmed by partial discharge testing. 

## **Mechanical** 

## **Schematic** 

## **PAG6356.XXXNLT** 

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PAG6356.XXXNLT PULSE<br>**----- End of picture text -----**<br>


**Weight** ...................2.6grams **Tape & Reel** ...............150/reel **Tray** .............................80/tray Inches **Dimensions:** mm unless otherwise specified, .010 all tolerances are ± 0,25 

P947. B (11/23) 

1 

High Isolation Power Transformers _EP7 Platform SMD - PAG6356.XXXNLT Series_ 

**==> picture [110 x 53] intentionally omitted <==**

## **TAPE & REEL INFO** 

||K0|||||||||W<br>|W<br>|W<br>|A||||||
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||||||||SURFACE MOUNTING TYPE, REEL/TAPE LIST||||||||||||
|||||||PART NUMBER||REEL SIZE (mm)||||TAPE SIZE (mm)|||QTY||||
|||||||||A|||G|P1|W|K0|PCS/REEL||||
|||||||PAG6356.XXXNLT||Ø330|||32.4|24|32|12.8|150||||
||||||||||||||||||||
|**APPLICATIO**||**N**|||||||||||||||||



PAG6356.XXXNL is a series of high isolation transformers. Designed for the TI’s Sn6505x high frequency, fixed duty cycle push pull driver, it is a part of a low cost solution for delivering up to 10W of power from a 24V source. Different turns ratios are available to deliver from 3.3V to 15V output. 

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**----- Start of picture text -----**<br>
VIN<br>VCC PAG6356.XXXNLT<br>D1<br>V OUT<br>SN6505x<br>Driver<br>D2<br>GND<br>**----- End of picture text -----**<br>


|**PART NUMBER**|**Primary Input**|**Seondary Output**|
|---|---|---|
|PAG6356.081NLT|24V|3.3V/3A|
|PAG6356.082NLT|24V|5V/2A|
|PAG6356.085NLT|24V|12V/0.8A|
|PAG6356.086NLT|24V|15V/0.67A|



This transformer design complies with IEC61558-1 and IEC62368-1, with reinforced insulation for a working voltage up to 400Vac. The 8mm creepage and clearance distance and 5000Vrms isolation voltage guarantees these requirement. The design also complies with the Pulse’s class F insulation system. 

P947. B (11/23) 

2 

## High Isolation Power Transformers 

_EP7 Platform SMD - PAG6356.XXXNLT_ 

**==> picture [542 x 564] intentionally omitted <==**

**----- Start of picture text -----**<br>
Test Procedure Setting Basic Insulation - Partaial Discharge Test Passed<br>PD - MV no.2<br>U inc.: U ext.: Limit: Range:<br>yes yes 10 pC AUTO<br>Limit OFF<br>Volatge U1: 1.50kV U1 = Urp * 1.5 = 1500V<br>Speed v2<br>0.14 kV/s<br>Limit 10.00pC<br>Volatge U2: 1.20 kV<br>Speed v1 Speed v3<br>0.14 kV/s 0.14 kV/s<br>Urp = 1000V<br>Meas. time: Waiting. time: Meas. time:<br>5 s 5 s 10 s<br>Test Procedure Setting Reinforced Insulation - Partaial Discharge Test Passed<br>PD - MV no.2<br>U inc.: U ext.: Limit: Range:<br>yes yes 10 pC AUTO<br>Limit OFF<br>Volatge U1: 1.65kV U1 = Urp * 1.875 = 1650V<br>Speed v2<br>0.14 kV/s<br>Limit 10.00pC<br>Volatge U2: 1.32 kV<br>Speed v1 Speed v3<br>0.14 kV/s 0.14 kV/s<br>Urp = 880V Meas. time: Waiting. time: Meas. time:<br>5 s 5 s 10 s<br>**----- End of picture text -----**<br>


## For More Information: 

**Americas -** prodinfo_power_americas@yageo.com  | **Europe -** prodinfo_power_emea@yageo.com  | **Asia -** prodinfo_power_asia@yageo.com 

Performance warranty of products offered on this data sheet is limited to the parameters specified. Data is subject to change without notice. Other brand and product names mentioned herein may be trademarks or registered trademarks of their respective owners. © Copyright, 2023. Pulse Electronics, Inc. All rights reserved. 

YAGEO Corporation and its affiliates do not recommend the use of commercial or automotive grade products for high reliability applications or manned space flight. 

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P947. B (11/23) 

PulseElectronics.com 

3

Updated at April 22, 2026

Pulse Electronics, a YAGEO company, is a global leader in the design and manufacturing of passive electronic components. With a legacy of innovation dating back to 1956, the company provides essential technology for the communications, computing, industrial, transportation, and IoT sectors. Pulse is recognized worldwide for delivering high-performance solutions that power advanced applications, ranging from 5G networks and electric vehicles to data centers and smart grids. The company's extensive product portfolio is heavily anchored in power and networking magnetics. This includes a comprehensive range of power inductors engineered for exceptional efficiency and reliability in demanding environments. To address complex electromagnetic compatibility challenges, Pulse also manufactures highly effective EMC and RFI suppression solutions, such as common mode chokes and filters, alongside specialized toroidal and RF inductors designed to ensure clean power delivery and optimal signal integrity. Beyond traditional magnetics, Pulse excels in the development of advanced wireless and power conversion components. Their connectivity solutions feature a wide array of high-performance RF antennas and single-band chip antennas tailored for modern connected devices. Furthermore, to support sophisticated power architectures, Pulse provides a broad spectrum of transformers—encompassing PCB-mounted designs, current sensing transformers, and precise pulse transformers—equipping engineers with robust, industry-proven components for power isolation and measurement.

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