HIP6604B Intersil Corporation, HIP6604B Datasheet
HIP6604B
Related parts for HIP6604B
HIP6604B Summary of contents
Page 1
... This drive-voltage flexibility provides the advantage of optimizing applications involving trade-offs between switching losses and conduction losses. The HIP6604B can be configured as either a HIP6601B or a HIP6603B. The output drivers in the HIP6601B, HIP6603B and HIP6604B have the capacity to efficiently switch power MOSFETs at frequencies up to 2MHz ...
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... M8.15B M8.15 M8.15B HIP6601B AND HIP6603B SHOOT- THROUGH PROTECTION † FOR HIP6601ECB AND HIP6603ECB DEVICES, THE PAD ON THE BOTTOM PAD SIDE OF THE PACKAGE MUST BE SOLDERED TO THE PC BOARD. HIP6604B QFN PACKAGE BOOT UGATE PHASE SHOOT- THROUGH PROTECTION LVCC LGATE PGND PAD PAD ON THE BOTTOM SIDE OF THE PACKAGE MUST BE SOLDERED TO THE PC BOARD ...
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... Typical Application: 3-Channel Converter Using HIP6301 and HIP6601B Gate Drivers +5V VFB COMP VCC PWM1 VSEN PWM2 PWM3 PGOOD MAIN CONTROL HIP6301 VID ISEN1 ISEN2 FS ISEN3 GND 3 HIP6601B, HIP6603B, HIP6604B +5V BOOT PVCC UGATE VCC PHASE DRIVE PWM HIP6601B LGATE +5V BOOT PVCC UGATE VCC PWM PHASE DRIVE HIP6601B ...
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... Upper Drive Source Impedance Upper Drive Sink Impedance Lower Drive Source Current Equivalent Drive Source Impedance Lower Drive Sink Impedance 4 HIP6601B, HIP6603B, HIP6604B Thermal Information Thermal Resistance SOIC Package (Note EPSOIC Package (Note 2 QFN Package (Note 2 ...
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... HIP6601B, HIP6603B, HIP6604B Lower gate driver supply voltage. PVCC (Pin 7), (Pin 11 QFN) For the HIP6601B and the HIP6604B, this pin supplies the upper gate drive bias. Connect this pin from +12V down to +5V. For the HIP6603B, this pin supplies both the upper and lower gate drive bias ...
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... This condition persists until the VCC voltage exceeds the VCC rising threshold. Internal Bootstrap Device The HIP6601B, HIP6603B, and HIP6604B drivers all feature an internal bootstrap device. Simply adding an external capacitor across the BOOT and PHASE pins completes the bootstrap circuit. ...
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... Figure 2 shows the dissipation in the driver with 3nF loading on both gates and each individually. Note the higher upper gate power dissipation which is due to the bootstrap device refresh cycle. Again PVCC and VCC are tied together and to a +12V supply. 7 HIP6601B, HIP6603B, HIP6604B Test Circuit +12V ...
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... VCC = 12V, PVCC = 5V 800 FREQUENCY = 1MHz 600 FREQUENCY = 500kHz 400 FREQUENCY = 200kHz 200 0 1.0 2.0 3.0 GATE CAPACITANCE (C FIGURE 7. POWER DISSIPATION vs FREQUENCY (HIP6601B) 8 HIP6601B, HIP6603B, HIP6604B 4.0 5 (nF FIGURE 4. POWER DISSIPATION vs FREQUENCY (HIP6603B) 400 300 = 3nF 200 100 1500 2000 FIGURE 6. VARIABLE LOADING PROFILE (HIP6603B) ...
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... SEATING PLANE - -C- α 0.10(0.004) 0.25(0.010 SIDE VIEW BOTTOM VIEW 9 HIP6601B, HIP6603B, HIP6604B M8.15B 8 LEAD NARROW BODY SMALL OUTLINE EXPOSED PAD PLASTIC PACKAGE SYMBOL α ...
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... Quad Flat No-Lead Plastic Package (QFN) Micro Lead Frame Plastic Package (MLFP) 10 HIP6601B, HIP6603B, HIP6604B L16.4x4 16 LEAD QUAD FLAT NO-LEAD PLASTIC PACKAGE (COMPLIANT TO JEDEC MO-220-VGGC ISSUE C) SYMBOL θ NOTES: 1. Dimensioning and tolerancing conform to ASME Y14.5-1994. ...
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... However, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Intersil or its subsidiaries. For information regarding Intersil Corporation and its products, see www.intersil.com 11 HIP6601B, HIP6603B, HIP6604B M8.15 (JEDEC MS-012-AA ISSUE C) 8 LEAD NARROW BODY SMALL OUTLINE PLASTIC PACKAGE ...