Differences in Surge Protective Device Classification, Parameters and Test Methods

October/21/2024

Differences in Surge Protective Device Classification, Parameters and Test Methods

UL 1449 5th Edition vs. IEC 61643

Key Parameters of SPDs 

1. Impulse Current (Iimp)

• Definition: Represents the peak value of the current pulse with a specific waveform, often used to simulate lightning strikes.

• UL 1449: Typically, not a specified parameter in UL standards; focuses more on voltage protection ratings.

• IEC 61643: Iimp is used primarily in Type 1 SPDs and is tested using a 10/350 µs waveform. The SPD must survive multiple impulses increasing in magnitude up to the maximum Iimp.

2. Maximum Discharge Current (Imax)

• Definition: The maximum surge current that the SPD can safely divert.

• UL 1449: Imax is typically included in the product’s technical specifications rather than being a core focus of UL 1449 testing requirements.

• IEC 61643: Tested using an 8/20 µs waveform, Imax is a critical parameter for Class II SPDs (Type 2).

3. Nominal Discharge Current (In)

• Definition: The peak value of the current that the SPD can handle in 15 operations without degradation.

• UL 1449: In is typically tested using an 8/20 µs waveform.

• IEC 61643: Also uses an 8/20 µs waveform for testing In, ensuring the SPD can withstand multiple surges during its operational life.

4. Voltage Protection Rating (VPR) vs. Voltage Protection Level (Up)

• VPR (UL 1449): The measured limiting voltage during surge testing, indicating the residual voltage that gets through the SPD to the protected equipment.

• Up (IEC 61643): Similar to VPR, it represents the voltage that appears at the SPD terminals under specific test conditions. The lower the Up, the better the protection for the equipment.

SPD Category

1. Type 1 SPDs

• UL 1449: Suitable for installation between the secondary of the utility transformer and the service entrance or anywhere downstream. No external overcurrent protection is required.

• IEC 61643: Similar application, used at the main distribution board, primarily to protect against direct lightning strikes. Tested with Iimp using a 10/350 µs waveform.

2. Type 2 SPDs

• UL 1449: Installed on the load side of the main service panel and may require external overcurrent protection.

• IEC 61643: Installed downstream of Type 1 devices, primarily in distribution boards to protect against residual surges. Tested with Imax using an 8/20 µs waveform.

3. Type 3 SPDs

• UL 1449: Installed at least 10 meters from the distribution panel, typically at the point of use. These are often plug-in devices.

• IEC 61643: Installed close to the protected load, providing fine protection to sensitive equipment.

Tested for low-energy surges.

4. Type 4 SPDs

• UL 1449: Component SPDs integrated into other devices. Not used as standalones.

• Type 1, 2, 3 Component Assemblies: Consists of a Type 4 component assembly with internal or external short circuit protection.

5. Type 5 SPDs

• UL 1449: Discrete component surge suppressors, such as MOVs that may be mounted on a PWB, connected by its leads or provided within an enclosure with mounting means and wiring terminations.

 

IEC 61643 Test Methods

1. Voltage Protection Level (Up)

• Test Description: Similar to UL’s VPR, Up is determined by applying an 8/20 μs surge current and measuring the peak voltage across the SPD.

• Purpose: Indicates the clamping voltage the SPD allows through to the protected equipment.

2. Nominal Discharge Current (In)

• Test Description: The SPD is subjected to multiple 8/20 μs impulses at the nominal discharge current rating.

• Purpose: Ensures the SPD can handle repeated surge events without performance degradation.

• Test Levels: Typically defined by the manufacturer but standardized in some levels.

3. Impulse Current (Iimp)

• Test Description: For Class I SPDs, the device is tested using a 10/350 μs waveform to simulate lightning surges.

• Purpose: Evaluates the SPD’s ability to handle direct lightning strikes.

• Test Method: The SPD must survive a series of five impulses increasing to the maximum Iimp.

4. Maximum Discharge Current (Imax)

• Test Description: The maximum surge current the SPD can withstand is tested using an 8/20 μs waveform.

• Purpose: Determines the device’s robustness under severe surge conditions.

UL 1449 5th Edition Test Methods

1. Voltage Protection Rating (VPR)

• Test Description: VPR is determined by subjecting the SPD to a specified combination wave (1.2/50 μs voltage, 8/20 μs current) surge and measuring the peak voltage across the device.

• Purpose: Indicates the maximum clamping voltage that the SPD allows through to the protected equipment.

2. Nominal Discharge Current (In)

• Test Description: The SPD is subjected to 15 impulses of 8/20 μs surge current at the nominal discharge current rating (In).

• Purpose: Ensures that the SPD can handle multiple surge events without degradation.

• Test Levels: Typically, 3 kA, 5 kA, 10 kA or 20 kA for Type 2 SPDs and 10 kA or 20 kA for Type 1 SPDs.

3. Maximum Continuous Operating Voltage (MCOV)

• Test Description: SPDs are tested to ensure they can continuously withstand a specified voltage without degradation.

• Purpose: Confirms that the SPD will not fail under normal operating conditions.

4. Maximum Discharge Current (Imax)

No such definition in UL 1449

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