TVS - Varistors, MOVs

Image	Part Number	Description / PDF	Quantity	Rfq
	MLVC18V014C2200 PowerStor (Eaton)	VARISTOR 20V 500A 1812	0
	MLVC40V180C800 PowerStor (Eaton)	VARISTOR 220V 1200A 4032	0
	MLVC08V038C110 PowerStor (Eaton)	VARISTOR 51V 35A 0805	0
	MLVC08V024C300 PowerStor (Eaton)	VARISTOR 33V 100A 0805	0
	MLVC08V033C120 PowerStor (Eaton)	VARISTOR 45V 35A 0805	0
	PS04LTVA2 PowerStor (Eaton)	TVS DIODE ESD 5V 0402	0
	MLVC40V014C5000 PowerStor (Eaton)	VARISTOR 18V 250A 4032	0
	MLVC08V042C100 PowerStor (Eaton)	VARISTOR 56V 35A 0805	0
	MLVC13V011C1800 PowerStor (Eaton)	VARISTOR 16V 300A 1210	0
	MLVC08V024C170 PowerStor (Eaton)	VARISTOR 33V 35A 0805	0
	MLVC13V033C700 PowerStor (Eaton)	VARISTOR 45V 280A 1210	0
	MLVC32V100C800 PowerStor (Eaton)	VARISTOR 120V 400A 3225	0
	MLVC40V022C4000 PowerStor (Eaton)	VARISTOR 27V 250A 4032	0
	MLVC08V033C230 PowerStor (Eaton)	VARISTOR 45V 35A 0805	0
	MLVC12V068C090 PowerStor (Eaton)	VARISTOR 86V 35A 1206	0
	MLVC12V022C600 PowerStor (Eaton)	VARISTOR 30V 150A 1206	0
	MLVC08V048C080 PowerStor (Eaton)	VARISTOR 62V 35A 0805	0
	MLVC12V030C200 PowerStor (Eaton)	VARISTOR 42V 35A 1206	0
	MLVC18V026C1300 PowerStor (Eaton)	VARISTOR 36V 500A 1812	0
	MLVC32V022C3000 PowerStor (Eaton)	VARISTOR 27V 100A 3225	0

TVS - Varistors, MOVs

1. Overview

Transient Voltage Suppressors (TVS), Varistors, and Metal Oxide Varistors (MOVs) are critical components for protecting electronic circuits from voltage spikes and electrostatic discharge (ESD). These devices clamp excessive voltage to safe levels, preventing damage to sensitive components. TVS diodes are semiconductor-based solutions with fast response times, while Varistors (including MOVs) use nonlinear resistive materials to absorb energy. Their importance spans industries like telecommunications, automotive, and consumer electronics, ensuring reliability in environments exposed to electrical surges.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
TVS Diodes	Unidirectional/bidirectional clamping, sub-nanosecond response time, low leakage current	Communication interfaces (USB, HDMI), microcontrollers, power supplies
Zinc Oxide Varistors	High energy absorption, voltage-dependent resistance, aging characteristics	Power line protection, industrial motor drives, surge protection strips
MOVs	Specialized varistors with metal oxide ceramics, optimized for AC/DC applications	Appliances, LED lighting, renewable energy systems

3. Structure and Composition

TVS diodes employ a PN junction semiconductor structure with doping profiles optimized for breakdown characteristics. Varistors consist of polycrystalline ceramic materials (typically zinc oxide grains with additives) sandwiched between metal electrodes, encapsulated in epoxy or molded housings. MOVs use similar materials to varistors but with enhanced grain boundary engineering for improved voltage clamping. All devices incorporate termination coatings (e.g., silver, tin) for PCB mounting compatibility.

4. Key Technical Parameters

Parameter	Description	Importance
Clamping Voltage (V_CLAMP)	Voltage level during surge conduction	Determines protection level for downstream components
Response Time	Time to transition from blocking to clamping mode	TVS: 0.5-10 ns; MOVs: 10-50 ns
Energy Absorption (W_ADM)	Maximum surge energy handling capability	Measured in joules (J), critical for industrial applications
Leakage Current	Off-state current at rated voltage	Impacts power efficiency, typically <100 A

5. Application Fields

Key industries include:

Consumer Electronics: Smartphone charging circuits, TV power supplies
Industrial Automation: PLCs, motor drives, sensor interfaces
Automotive: ECU protection, CAN bus interfaces, battery management systems
Renewable Energy: Solar inverters, wind turbine controllers

Case Study: MOVs in smart meters provide 10kA surge protection against grid transients.

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Specifications
Littelfuse	SM712-02	12A, 13.3V clamping, bidirectional TVS for RS-485
Bourns	V14450A	14mm MOV, 450VAC, 210J energy rating
STMicroelectronics	TV05C060	0.5W, 6V, ultra-small TVS for IoT devices

7. Selection Guidelines

Key considerations:

Operating voltage vs. clamping voltage margin
Surge current requirements (8/20 s waveform standard)
Package size constraints (SMD vs. through-hole)
Environmental conditions (temperature, humidity)
Lifespan expectations (MOVs degrade with repeated surges)

8. Industry Trends

Emerging trends include:

Miniaturization: Sub-0201 TVS devices for mobile applications
Higher energy density: MOVs with >1000J/cm absorption
Integration: Combined ESD and surge protection solutions
Automotive focus: AEC-Q qualified devices for 48V systems
Green manufacturing: Lead-free and RoHS-compliant materials