SMT Pick & Place Machine Comparison Matrix
Analyze and compare the technical specifications, placement speeds, accuracy parameters, and feeder capabilities of the SMT industry's leading mounters: Fuji NXT III, Yamaha YSM20R, and Panasonic NPM-D3.
| Feature / Spec | Fuji NXT III | Yamaha YSM20R | Panasonic NPM-D3 |
|---|---|---|---|
| Max Placement Speed | 95,000 CPH (H24G Head) | 95,000 CPH (High-speed Head) | 84,000 CPH (16-Nozzle Head) |
| Placement Accuracy | ±0.025 mm (3σ) Chip components | ±0.035 mm (3σ) Standard chip | ±0.030 mm (3σ) Chip components |
| Component Size Range | 0201 (metric) to 74 x 74 mm Max height: 25.4 mm | 03015 to 45 x 100 mm Max height: 15 mm | 03015 to 100 x 90 mm Max height: 28 mm |
| Max Feeder Capacity | 130 slots (8mm tape equivalent) | 140 slots (8mm tape equivalent) | 136 slots (8mm tape equivalent) |
| Max PCB Size | 750 x 610 mm (Dual lane: 750 x 280 mm) | 810 x 490 mm (Standard single lane) | 750 x 550 mm (Dual lane: 750 x 260 mm) |
| Changeover Concept | Modular placing units (M3/M6 III) Extremely flexible | Integrated multi-scan camera Integrated single platform | Plug-and-play head capability Optimized line balance |
| Spare Parts Support | Full range of nozzles, feeders, filters, and shafts in stock. Get Fuji Quote | Genuine & high-copy feeders, filters, custom nozzles. Get Yamaha Quote | NPM nozzles, feeder parts, splice tapes, replacement motors. Get Panasonic Quote |
Fuji NXT III Excellence
The modular design allows manufacturers to swap heads (such as H24G, H08, H01) in minutes. Renowned for its extreme precision and reliability in ultra-high density micro-component placement (like 0201/03015 packages) for mobile devices.
Yamaha YSM20R Speed
A high-speed, high-efficiency machine utilizing a single-platform concept. Its multi-scan camera reduces component optical detection overheads, making it one of the most cost-effective placement systems for medium-to-large runs.
Panasonic NPM-D3 Flexibility
Perfect for high-mix low-volume or high-volume SMT manufacturing. Employs independent dual-gantry structures and dual-lane PCB conveyors, enabling independent processing and zero-loss changeovers.