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Published byAlexina Evans Modified over 6 years ago
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An Introduction to Silego's Ultra Low RDSON Integrated Power Switches
November 2016 v.1.0
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Silego Integrated Power Switch (IPS) Categories
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Silego Integrated Power Switch Advantages
Proprietary CuFET™ Technology Ultra low RDSON nFETs: Singles as low as 4 mΩ; Back-to-back (B2B), Reverse-current Block (RCB) as low as 15 mΩ pFETs: Single/duals as low as 23 mΩ Ultra-small package sizes: 1 mm2 to 4 mm2 ST[D/Q]FNs, 0.4 mm pitch Continuous operating currents: 1 A to 9 A Greater flexibility in power sequencing Fixed or adjustable VOUT eliminates “RC” tuning variation controlled inrush current Faster overall power-up sequencing Built-in System-level Protection Circuits Input under/over-voltage protection Fixed or resistor-adjustable current limit Short-circuit protection Thermal shutdown with auto restart Reverse-current blocking Logic-level Turn-on Signaling Eliminates external level shift or charge pump circuitry to drive FET
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Silego’s Integrated CuFET™ MOSFET Technology
Single-die Integration: Cu-FET™ Technology → Inverted-die packaging → Eliminates bond wires & lead frame 0.18-µm Control Circuitry + High-IDS/Low RDSON n/p-channel MOSFETs Foundry Process: Low-voltage IPSs → 3.6V or 5V CMOS Logic 24V High-voltage IPSs → 5V CMOS Logic + High-voltage Add-on Module Low sheet ρ interconnects Drain Source Top-side Redistribution Layer Octagonal FET “Cell” Control Circuit Gate Metal Layers & Vias FET Array Gate Channel Channel Optimal Range: 1A ≤ IDS ≤ 10A 20mΩ RDSON ~100,000 FET “cells” Note: Not to scale
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Silego’s Integrated CuFET™ MOSFET Technology
(for Flip Chip) TDFN Lead Frame Low sheet ρ Cu pillars 0.55mm Plastic package encapsulant Note: Not to scale
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Single-channel Integrated Power Switch
MOSFET Circuit + Discharge Circuit An ultra Low RDSON Single-channel Integrated Power Switch, 1.5 x 2.0 mm package
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Typical Block Diagram of Single-channel nFET IPS
Proprietary CuFET™ technology for very low RDSON Continuous IDS Capacitor for adjusting VOUT slew rate and inrush current control Downstream Load Details: FPGA or application processor LCD Display BT Radio or WLAN USB or Powered ports Buck/Boost converter or LDO HV fan motor (inductive load) Resistor for adjusting Active Current Limit threshold 1.6 x 2.5 x 0.55 mm 16 pin
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Typical Block Diagram of Single-channel pFET IPS
Continuous IDS 1.0 x 1.0 x 0.55 mm 4 pin SLG59M1557V SLG59M1558V
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Dual-channel nFET Integrated Power Switch
≥4mm2 ≥4mm2 MOSFET Channel 1 Circuit MOSFET Channel 2 Circuit Discharge Channel 1 Discharge Channel 2 Discrete Solution: ≥24mm Rs & Cs Silego Solution: 1.6mm2 incl’g protection ckts Dual-channel Power Switch in a 1.0 x 1.6 mm Package
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Typical Block Diagram of Dual-channel nFET IPS
ILOAD1 ILOAD2 1.0 x 3.0 x 0.55 mm 14 pin SLG59M1527V SLG59M1603V SLG59M1612V
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Typical Block Diagram of Dual-channel pFET IPS
1.0 x 1.6 x 0.55 mm 8 pin SLG59M1638V SLG59M1639V SLG59M1640V SLG59M1641V
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Typical Block Diagram of Single-channel nFET IPS with Reverse Blocking Feature
ILOAD 1.5 x 2.0 x 0.75 mm 8 pin SLG59M610V SLG59M1563V SLG59M1600V SLG59M1714V
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GreenFET3 Over-current Protection
If current-limit condition is not triggered, IPS operates in normal mode. Thermal protection is not activated.
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GreenFET3 Over-current Protection
If current-limit condition is triggered, then thermal protection is activated.
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GreenFET3 Short-circuit Protection
For short circuit on the VOUT pin – thermal protection is not triggered, output voltage VOUT = 0V and MOSFET is saved from damage.
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GreenFET3 VOUT Ramp Rate
Conditions: CSLEW = 4 nF; VDD = 5 V; VD = 5 V
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Learn more about GreenFET3 products at our website
GreenFET3 Product Selector Guide (English) HFET1 Product Selector Guide AN-1068 GreenFET3 Integrated Power Switch Basics
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