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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.
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