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FPBL15SM60 Datasheet, PDF (1/17 Pages) Fairchild Semiconductor – Smart Power Module (SPM)
FPBL15SM60
Smart Power Module (SPM)
General Description
FPBL15SM60 is an advanced smart power module (SPM)
that Fairchild has newly developed and designed to provide
very compact and low cost, yet high performance ac motor
drives mainly targeting medium speed low-power inverter-
driven application like air conditioners. It combines
optimized circuit protection and drive matched to low-loss
IGBTs. Highly effective short-circuit current detection/
protection is realized through the use of advanced current
sensing IGBT chips that allow continuous monitoring of the
IGBTs current. System reliability is further enhanced by the
integrated under-voltage lock-out protection. The high
speed built-in HVIC provides opto-coupler-less IGBT gate
driving capability that further reduce the overall size of the
inverter system design. In addition the incorporated HVIC
facilitates the use of single-supply drive topology enabling
the FPBL15SM60 to be driven by only one drive supply
voltage without negative bias.
Features
• UL Certified No. E209204
• 600V-15A 3-phase IGBT inverter bridge including control
ICs for gate driving and protection
• Single-grounded power supply due to built-in HVIC
• Typical switching frequency of 7kHz
• Inverter power rating of 1kW / 100~253 Vac
• Isolation rating of 2500Vrms/min.
• Very low leakage current due to using ceramic substrate
• Adjustable current protection level by varying series
resistor value with sense-IGBTs
Applications
• AC 100V ~ 253V three-phase inverter drive for small
power (1kW) ac motor drives
• Home appliances applications requiring medium
switching frequency operation like air conditioners drive
system
• Application ratings:
- Power : 1kW / 100~253 Vac
- Switching frequency : Typical 7kHz (PWM Control)
- 100% load current : 7A (Irms)
External View and Marking Information
Top View
Bottom View
57 mm
55 mm
Device Name
Version, Lot Code
Marking
©2002 Fairchild Semiconductor Corporation
Fig. 1.
Rev. B, February 2002