Panasonic mounters, based on their applications and performance characteristics, can be divided into several types. Below are representative models of different types and their features:

1. High-Speed Mounter

These mounters are primarily used for large-scale production, offering high speed and precision, suitable for handling small-sized, high-density components.

• NPM-D3

• Features: High speed, high precision, suitable for large-scale production lines.

• Applications: High-density mounting in electronics products such as smartphones, tablets, etc.

• Technical features: Multi-station, multi-head design to enhance production efficiency and flexibility.

• NPM-W2

• Features: High-speed multi-function mounter.

• Applications: Suitable for consumer electronics, communication equipment, capable of meeting diverse production needs.

• Technical features: Capability for multi-process handling, quick changeover, and automatic adjustment functions to enhance production efficiency and flexibility.

2. Mid-Speed Mounter

Mid-speed mounters achieve a balance between speed and precision, suitable for medium-scale production batches.

• CM602-L

• Features: Mid-speed mounter with high flexibility and precision.

• Applications: Suitable for household appliances, automotive electronics, and similar medium-scale production batches.

• Technical features: Multi-station, multi-head design supporting various types of components to adapt to diverse production needs.

3. Low-Speed Mounter

Low-speed mounters focus on precision and stability, suitable for small-batch production and products with special requirements.

• BM123

• Features: Low-speed mounter emphasizing precision and stability.

• Applications: Suitable for small-batch production and highly customized products such as specialty instruments, medical devices, etc.

• Technical features: Provides high-precision mounting services to meet stringent manufacturing requirements.

Panasonic mounters offer a range of options from high-speed for large volumes to low-speed for small batches, catering to different production needs and scales. Choosing the appropriate model depends on factors like production scale, product characteristics, requirements for production speed and precision, as well as equipment flexibility and automation level.