Ionizer Equipment

Part Number	Description / PDF	Quantity
ER-VW Panasonic	ULTRA THIN IONIZER DUAL NOZZLE	43
ER-Q Panasonic	ULTRA COMPACT FAN TYPE IONIZER	76
EC-G02 Panasonic	PULSE AIR-GUN IONIZER	16
ER-X064 Panasonic	IONIZER CHASSIS MOUNT 24V	2
ER-X016 Panasonic	IONIZER CHASSIS MOUNT 24V	0
ER-X032 Panasonic	IONIZER CHASSIS MOUNT 24V	8
ER-F12A Panasonic	COMPACT FAN TYPE IONIZER	41
ER-VS02 Panasonic	ULTRA-COMPACT IONIZER	116
ER-X048 Panasonic	IONIZER CHASSIS MOUNT 24V	3
EC-B02-EX Panasonic	CLEANING BOX WIDE TYPE	0
EC-G01 Panasonic	PULSED AIR-GUN IONIZER MAIN UNIT	0
EC-B01-EX Panasonic	CLEANING BOX STANDARD TYPE	0
ER-VS01 Panasonic	COMPACT SPOT TYPE IONIZER	0
ER-F12S Panasonic	FAN TYPE IONIZER LOW VOLUME	0
ER-F12 Panasonic	FAN TYPE IONIZER MAIN BODY	0
ER-TF04 Panasonic	WIDE FAN TYPE IONIZER 400MM	0
ER-TF06 Panasonic	WIDE FAN TYPE IONIZER 600MM	0
ER-TF08 Panasonic	WIDE FAN TYPE IONIZER 800MM	0
ER-TF08-EX Panasonic	WIDE-AREA FAN TYPE IONIZER 800MM	0
ER-TF04-EX Panasonic	WIDE-AREA FAN TYPE IONIZER 400MM	0

Ionizer Equipment

1. Overview

Ionizer equipment neutralizes static electricity by generating positive and negative ions to balance charges on surfaces. This technology is critical in semiconductor manufacturing, electronics assembly, and cleanroom environments where electrostatic discharge (ESD) can damage sensitive components or compromise product quality. Modern ionizers integrate advanced airflow control, self-monitoring systems, and adaptive ion output regulation.

2. Major Types & Functional Classification

Type	Functional Features	Application Examples
AC Ionizers	Alternating current power supply, balanced ion emission	PCB assembly lines
DC Ionizers	Separate high-voltage DC power for ions, faster neutralization	Automotive sensor manufacturing
Pulsed DC Ionizers	Modulated voltage control, superior balance stability	Hard disk drive production
Self-Contained Ionizers	Integrated power supply and emitters	Cleanroom HVAC systems
Soft X-Ray Ionizers	Radiation-based ionization, contactless operation	Biopharmaceutical processing

3. Structure & Components

Typical ionizers consist of:

Discharge electrode arrays (tungsten/carbon fiber tips)
High-voltage power supply modules (AC/DC converters)
Forced-air systems (variable-speed fans)
Aluminum/polycarbonate housing with EMI shielding
Control panels with LED status indicators
Optional ion balance sensors

4. Key Technical Parameters

Parameter	Typical Range	Significance
Offset Voltage	1V - 50V	Residual charge after neutralization
Neutralization Time	0.5s - 20s	Production line throughput impact
Airflow Rate	0.5 - 5.0 m /min	Pollutant removal efficiency
Operating Temperature	0 C - 50 C	Environmental compatibility
MTBF	20,000 - 50,000 hours	System reliability indicator

5. Application Fields

Key industries include:

Semiconductor fabrication (wafer handling systems)
Flat panel display manufacturing (ITO glass processing)
Medical device assembly (Class 100 cleanrooms)
Aerospace electronics (avionics testing)
Data storage media production (magnetic head alignment)

Case Study: In 300mm wafer manufacturing, ionizers reduce particle attraction by 78%, improving yield rates by 12% annually.

6. Leading Manufacturers & Products

Manufacturer	Product Series	Key Features
Simco-Ion	Hyperion AC6000	Auto-balance feedback control
3M	8110 ESD Ionizer	Modular emitter replacement
Meech	928 Hyperactive	Smart ion monitoring
Haug	IonPro MF	Energy-efficient DC design
Shishin	ASD-2000	Low-voltage pulse technology

7. Selection Recommendations

Key considerations:

Environmental requirements (cleanroom class, humidity range)
Ion balance stability (critical for sub-10nm processes)
Footprint constraints (overhead vs. benchtop installations)
Compliance standards (JEDEC J-STD-001, IPC-J-STD-001)
Maintenance accessibility (electrode cleaning frequency)

Example: Select pulsed DC models for ISO Class 4 environments, AC variants for general packaging lines.

8. Industry Trends

Development directions include:

AI-driven ion balance optimization
Integration with IoT monitoring systems
Nano-particle suppression hybrid designs
Energy recovery technologies (30% power reduction)
Graphene electrode materials (2x lifespan improvement)

Market growth projected at 6.8% CAGR through 2028, driven by EV electronics and 5G component manufacturing demands.