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1N4007 Diode Specifications and Application Examples

  • Contents

Introduction

The 1N4007 is a general-purpose silicon rectifier diode, typically found in a plastic DO-41 axial package. It is widely used in various AC-to-DC rectifier circuits, bridge rectifier circuits, and general-purpose power supply applications. The 1N4007 utilizes the unidirectional conductivity of the P-N junction to convert alternating current into pulsed direct current. Due to its high reverse voltage rating (1000V) and low cost, it is one of the most popular components in electronics.

Ⅰ 1N4007 Diode Specifications

1.1 Rectifier Diode Overview

The 1N4007 is a standard recovery rectifier diode. In low-power/low-current scenarios, the forward voltage (Vf) is typically around 0.7V to 0.8V. However, under its full rated load (1A), the forward voltage drop can reach up to 1.1V.

Note on Frequency: The reverse recovery time (Trr) of the 1N4007 is in the microsecond (μs) range (typically 2μs to 30μs depending on conditions). This classifies it as a "slow" diode, meaning it is suitable for 50Hz/60Hz mains rectification but not suitable for high-frequency switching circuits (like high-frequency DC-DC converters), where Fast Recovery (FR) or Ultra-Fast (UF) diodes are required.

Rectifier diodes make full use of unidirectional conductivity. They block the negative half-cycle of an AC waveform to convert it into a pulsating DC signal. To smooth this output, they are usually used in combination with a capacitor. The diode is connected in series, and the capacitor is connected in parallel to the load.

1n4007 Bridge Rectifier Circuit Example

Figure 1. 1N4007 Bridge Rectifier Circuit Example

1.2 Nomenclature: What does 1N4007 mean?

  • "1": Represents the number of junctions. In JEDEC nomenclature, "1" stands for a component with one P-N junction (a diode).
  • "N": Stands for semiconductor device, registered with the EIA (Electronic Industries Alliance) / JEDEC.
  • "4007": The specific registration number indicating the device's electrical characteristics within the 1N400x series.

1.3 1N4007 Pins and Symbol

PIN Description
1 (Marked with Band) Cathode (-)
2 (Unmarked) Anode (+)
1n4007 diode symbol

1.4 1N4007 Basic Parameters (at 25°C)

  • Type: Standard Recovery Silicon Rectifier
  • Max Average Forward Rectified Current (Io): 1.0 A
  • Peak Forward Surge Current (Ifsm): 30 A (for 8.3ms single half-sine-wave)
  • Max Repetitive Peak Reverse Voltage (Vrrm): 1000 V
  • Max DC Blocking Voltage: 1000 V
  • Max Forward Voltage Drop (Vf): 1.1 V (at 1.0A current)
  • Max Reverse Leakage Current (Ir): 5 μA (at rated DC blocking voltage)
  • Typical Junction Capacitance (Cj): 15 pF (measured at 4V, 1MHz)
  • Typical Thermal Resistance: 65 °C/W (Junction to Ambient)
  • Operating Temperature Range: -55°C to +150°C

Forward Current and Voltage
Figure 2. Forward Current Derating Curve

1.5 1N4007 Features

  • Low reverse leakage current
  • High surge current capability (up to 30A non-repetitive)
  • RoHS compliant and available in Pb-Free packages
  • High-temperature soldering guaranteed: 260°C/10 seconds.
  • Mechanical Data:
    • Case: DO-41 Molded Plastic
    • Terminals: Plated axial leads, solderable per MIL-STD-202
    • Polarity: Color band denotes cathode end

Ⅱ 1N4001-1N4007 Series Comparison

The 1N400x series contains diodes that are physically identical and rated for the same current (1A). The only difference is the Maximum Repetitive Reverse Voltage (Vrrm). Because the 1N4007 has the highest voltage rating (1000V), it can replace any other diode in the series (1N4001 through 1N4006).

Model Current (A) Max Peak Reverse Voltage (V) Max RMS Voltage (V)
1N4001 1 50 35
1N4002 1 100 70
1N4003 1 200 140
1N4004 1 400 280
1N4005 1 600 420
1N4006 1 800 560
1N4007 1 1000 700

Ⅲ Alternative Models & Equivalents

The 1N4007 can often be replaced by higher-spec diodes.

  • Higher Current: 1N5399 (1.5A) and 1N5408 (3.0A). Note: The 1N5408 has thicker leads and a larger body (DO-201AD) and may not fit all PCB holes designed for the 1N4007.
  • Fast Recovery: If high-frequency performance is required, FR107 (Fast Recovery) or UF4007 (Ultra Fast) are excellent replacements. They share the same voltage/current ratings but switch off much faster.
  • Schottky Diodes (Caution): While Schottky diodes like 1N5819 or 1N5818 have a lower forward voltage drop (higher efficiency), they usually have much lower reverse voltage ratings (often 20V-40V). Do not replace a 1N4007 with a Schottky diode in high-voltage circuits (like 110V/220V mains) or the diode will fail instantly. However, for low voltage (e.g., 12V) DC inputs, a Schottky like the SB1100 (100V) can be a more efficient substitute.
Model Max Reverse Voltage (V) Avg Rectified Current (A) Max Surge Current (A) Max Reverse Leakage (μA)
1N4007 1000 1 30 5
1N5399 1000 1.5 50 5
1N5408 1000 3 200 5
FR107 1000 1 30 5 (Fast Recovery)

Ⅳ 1N4007 vs. M7 (SMD Versions)

When moving from Through-Hole Technology (THT) to Surface Mount Technology (SMT), the electrical equivalents of the 1N4007 are identified by different package codes.

  • 1N4007: This specifically refers to the DO-41 axial lead package (through-hole).
  • M7: This is the SMA (DO-214AC) surface mount version of the 1N4007. It is electrically identical (1A, 1000V).
  • A7: This is the SOD-123 surface mount version. It is smaller than the SMA package but carries similar specs (usually slightly lower thermal dissipation).
  • SM4007: This generally refers to the MELF (DO-213AB) cylindrical surface mount package, though "SM4007" is sometimes used generically for any SMD version.

DO-41 Package

Figure 3. DO-41 Package (1N4007)

Summary: If you see a diode marked "M7" on a circuit board, it is a surface-mount 1N4007.

Ⅴ 1N4007 Application Examples

5.1 Solving Auxiliary Winding Overvoltage

The slow recovery characteristics of the 1N4007 can sometimes be advantageous over faster diodes in specific power supply applications.

In Flyback power supplies, multi-output transformers can suffer from poor cross-regulation. A common issue is the VCC auxiliary winding voltage rising too high, triggering the IC's Over-Voltage Protection (OVP). This often happens because a fast diode (like the HER107) rectifies the high-frequency leakage inductance spike (the "ringing") at the leading edge of the waveform, rather than just the plateau voltage.

IC Control Circuit

Figure 4. IC Control Circuit

Solution: By replacing the fast HER107 with a standard speed 1N4007, the slower turn-on time ignores the initial high-frequency spike. This effectively filters the peak voltage, lowering the average VCC voltage seen by the IC and preventing false OVP triggering.

5.2 RCD Snubber EMI Suppression

In RCD (Resistor-Capacitor-Diode) snubber circuits used to protect MOSFETs in Flyback converters, using a slow diode like the 1N4007 can help improve Electro-Magnetic Interference (EMI).

RCD Absorption Circuit

Figure 5. RCD Absorption Circuit

How it works: A "fast" diode snaps off very quickly, which can induce high-frequency ringing. The 1N4007 takes longer to recover (reverse recovery). During this brief recovery period, a small amount of reverse current flows back. This "soft recovery" acts as a dampener, absorbing some of the oscillation energy and reducing the voltage stress and EMI radiation on the MOSFET drain.

Trade-off: The downside is that the 1N4007 will generate more heat due to reverse recovery losses. This technique is generally suitable for lower-power adapters (<20W) where EMI is a priority and thermal overhead is available.

Ⅵ FAQ

1. What is a 1N4007 diode used for?
It is a general-purpose rectifier diode used to convert AC to DC, prevent reverse polarity, and protect circuits from voltage spikes (flyback protection).

2. What is the difference between 1N4001 and 1N4007?
The only difference is the Peak Repetitive Reverse Voltage. The 1N4001 is rated for 50V, while the 1N4007 is rated for 1000V. 1N4007 can replace a 1N4001, but a 1N4001 cannot replace a 1N4007 in high-voltage circuits.

3. Can I replace 1N4148 with 1N4007?
Generally, No. The 1N4148 is a high-speed signal diode (very fast switching, low current). The 1N4007 is a power rectifier (slow switching, high current).
• If you put a 1N4007 in a high-speed data circuit, it will be too slow and fail to work.
• If you put a 1N4148 in a power circuit, it will likely burn out due to its lower current limit (200mA vs 1A).

4. How much current can a 1N4007 diode handle?
It can handle 1 Ampere of continuous rectified current. It can handle a non-repetitive surge of 30 Amperes (for less than 8.3ms), which is useful for inrush current at startup.

5. What is the voltage drop of 1N4007?
While often cited as 0.6V or 0.7V, under a full 1A load, the voltage drop is typically 0.9V to 1.1V.

6. What is M7 diode?
M7 is the surface-mount (SMD) code for the 1N4007 diode in an SMA package. It has the same electrical specs: 1A, 1000V.

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