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 / SpecFuji NXT IIIYamaha YSM20RPanasonic NPM-D3
Max Placement Speed95,000 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 Range0201 (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 Capacity130 slots
(8mm tape equivalent)
140 slots
(8mm tape equivalent)
136 slots
(8mm tape equivalent)
Max PCB Size750 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 ConceptModular 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.