Heatsink Very-thin Quad Flat-pack No-leads (HVQFN)

NXP continues to offer our customers the benefits of smaller and smaller packages. The HVQFN package provides a significantly smaller, low pad-count, leadless alternative to the TSSOP package, previously the industry's smallest gate and octal logic package.

Like the DQFN, the HVQFN is a leadless package where electrical contact is made by soldering the pads on the bottom surface of the package to the board, instead of the conventional formed perimeter leads. Pads are equally spaced along all four sides with an exposed die paddle in the center that is normally bonded to the die GND.

The exposed die paddle technology enhances the thermal and electrical qualities of the package. The die-attach paddle on the bottom efficiently conducts heat to the board. Tests comparing the HVQFN's thermal performance with TSSOP's show that the HVQFN dissipates heat up to 20% more efficiently.

Also, with the contact surfaces beneath the package, there is no risk of bent lead or co-planarity problems. Handling and packaging becomes easier as a result of this. And, like the VFBGA, the shorter wire length and shorter internal traces improve package performance by up to 20% over TSSOP. Package inductance is also reduced by 60% and capacitance by 30% compared to TSSOP.

The design of the HVQFN package also allows for frequency flexibility in your design. Its enhanced electrical performance enables, with some design considerations, the standard 2GHz frequency to be increased up to 10GHz.

To achieve peak performance, special considerations are needed to properly design the circuit board and to mount the package. For enhanced thermal, electrical, and board-level performance, the exposed pad on the package needs to be soldered to the board using a corresponding thermal pad on the board. Furthermore, for proper heat conduction through the board, thermal vias need to be incorporated in the PCB in the thermal pad region. The PCB footprint design needs to be considered from dimensional tolerances due to package, PCB, and assembly.

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	SC16C550B		2.5/3.3/5V single UART with 16-byte FIFOs
	SC16C2550B		2.5/3.3/5V dual UART (DUART) with 16-byte FIFOs; up to 5Mbps
	SC16C554B		2.5V/3.3V/5V quad UART with 16-byte FIFOs; up to 5Mbps
	SC16C650B		2.5/3.3/5V single UART with 32-byte FIFOs and infrared (IrDA) encoder/decoder
	SC16C652B		2.5/3.3/5V dual UART (DUART) with 32-byte FIFOs and infrared (IrDA) encoder/decoder; up to 5Mbps
	SC16C654B		2.5V/3.3V/5V quad UART with 64-byte FIFOs and infrared (IrDA) encoder/decoder; up to 5Mbps; Motorola interface package option
	SC16C750B		2.5/3.3/5V single UART with 64-byte FIFOs
	SC16C751B		2.5V/3.3V/5V single UART with 64-byte FIFOs
	SC16C752B		2.5/3.3/5V dual UART (DUART) with 64-byte FIFOs; up to 5Mbps
	SC16C850		2.5V to 3.3V single UART with 128-byte FIFOs, infrared (IrDA), 16/68-mode parallel bus interface; up to 5Mbps
	SC16C850L		1.8V single UART with 128-byte FIFOs, infrared (IrDA), 16/68-mode parallel bus interface; up to 5Mbps
	SC16C850V		1.8V single UART with 128-byte FIFOs, infrared (IrDA), XScale VLIO bus interface; up to 5Mbps
	SC16C850SV		1.8V single UART with 128-byte FIFOs, infrared (IrDA), XScale VLIO bus interface; up to 20Mbps
	SC16C852L		1.8V dual UART with 128-byte FIFOs, infrared (IrDA), 16/68-mode parallel bus interface; up to 5Mbps
	SC16C852V		1.8V dual UART with 128-byte FIFOs, infrared (IrDA), XScale VLIO bus interface; up to 5Mbps
	SC68C752B		5V, 3.3V, and 2.5V dual UART; 5Mbit/s (max.) with 64-byte FIFOs; Motorola interface
	GTL2010		10-bit GTL processor voltage clamp
	P89LPC932		See P89LPC932A1 replacement
	P89LPC932A1		Microcontroller with 8KB 3V flash, 512-byte data EEPROM
	P89LPC935		Microcontroller with 8KB 3V flash, 8-bit ADCs, 4 PWMs,
	P89LPC938		Microcontroller with 8KB 3V flash, 10-bit A/D converter, 4 PWMs, I2C and SPI and UART interfaces
	LPC2106		Microcontroller with 128KB ISP/IAP flash, 64KB RAM
	LPC2132		Microcontroller with 64KB ISP/IAP flash, 10-bit ADC, DAC
	LPC2138		Microcontroller with 512KB ISP/IAP flash, 2x10-bit ADC, DAC
	PCA8575		Remote 16-bit I/O expander for I2C-bus with interrupt
	PCA9500		8-Bit I2C I/O Port with 2-Kbit EEPROM
	PCA9501		8-Bit I2C I/O Port with Interrupt, 2-Kbit EEPROM, and Six Address Pins
	PCA9502		8-bit I/O expander for I2C/SPI bus
	PCA9506		40-bit I2C I/O port with reset, output enable, and interrupt
	PCA9519		4-channel level translating I2C-bus/SMBus repeater
	PCA9531		8-Bit I2C LED Dimmer
	PCA9532		16-Bit I2C LED Dimmer
	PCA9534		8-Bit I2C Low Power I/O Port with Interrupt
	Datasheet (Nov 6, 2006) PCA9534D SO-16 Production SOT162-1 Pb-Free          PCA9534PW TSSOP-16 Production SOT403-1 Pb-Free          PCA9534BS HVQFN-16 Production SOT629-1 Pb-Free          PCA9534BS3 HVQFN-16 Production SOT758-1                   Family Functions Literature Models Support Docs Price Samples More...
	PCA9535		16-Bit I2C Low Power I/O Port with Interrupt
	PCA9538		8-bit I2C low power I/O port with interrupt and reset
	PCA9539		16-bit I2C and SMBus low-power I/O port with interrupt and device/register reset
	PCA9539R		16-bit I2C and SMBus low-power I/O port with interrupt and device-only reset
	PCA9541		2-to-1 I2C Master Selector with Interrupt Logic and Reset
	PCA9544A		4-channel I2C multiplexer with interrupt logic
	PCA9545A		4-channel I2C-bus switch with interrupt logic and reset; address range A
	PCA9546A		4-channel I2C switch with reset
	PCA9547		8-channel I2C-bus multiplexer with reset
	PCA9548A		8-channel I2C switch with reset
	PCA9549		Octal I2C-bus switch with reset
	PCA9551		8-Bit I2C LED Driver with Programmable Blink Rates
	PCA9552		16-Bit I2C LED Driver with Programmable Blink Rates
	PCA9554		8-Bit I2C I/O Port with Interrupt
	PCA9554A		8-Bit I2C I/O Port with Interrupt
	PCA9555		16-Bit I2C I/O Port with Interrupt
	PCA9557		8-Bit I2C I/O Port with Reset
	PCA9564		Parallel Bus to I2C Bus Controller
	PCA9574		8-bit I2C-bus and SMBus, level translating, low voltage GPIO with reset and interrupt
	PCA9632		4-bit Fm+ I2C-bus low power LED driver
	PCA9633		4-bit Fm+ I2C LED driver optimized for RGBA color mixing
	PCA9634		8-bit Fm+ I2C LED driver
	PCA9665		Parallel-bus to I2C-bus protocol and converter interface
	PCA9670		Remote 8-bit I/O expander for Fm+ I2C-bus with reset
	PCA9671		Remote 16-bit I/O expander for Fm+ I2C-bus with reset
	PCA9672		Remote 8-bit I/O expander for Fm+ I2C-bus with interrupt and reset
	PCA9673		Remote 16-bit I/O expander for Fm+ I2C-bus with interrupt and reset
	PCA9674		Remote 8-bit I/O expander for Fm+ I2C-bus with interrupt
	PCA9674A		Remote 8-bit I/O expander for Fm+ I2C-bus with interrupt
	PCA9675		Remote 16-bit I/O expander for Fm+ I2C-bus with interrupt
	PCA9685		16-channel Fm+ I2C-bus 12-bit PWM LED controller
	PCA9698		40-bit Fm+ I2C advanced I/O port with reset, output enable, and interrupt
	SA58632		2 x 2.2W BTL audio amplifier
	SA58637		2 x 2.2W BTL audio amplifier
	SA58670		2.1W per channel stereo class-D audio amplifier
	SA58670A		2.1W per channel stereo class-D audio amplifier
	SC16IS750		I2C/SPI slave bridge to single UART with 64 byte FIFOs, 115.2Kbit/s IrDA, 8 GPIOs
	SC16IS752		I2C/SPI slave bridge to dual UARTs with 64 byte FIFOs, 115.2Kbit/s IrDA, 8 GPIOs
	SC16IS760		I2C/SPI slave bridge to single UART with 64 byte FIFOs, 1.152Mbit/s IrDA, 8 GPIOs
	SC16IS762		I2C/SPI slave bridge to dual UARTs with 64 byte FIFOs, 1.152Mbit/s IrDA, 8 GPIOs
	SC18IS600		SPI slave bridge to I2C master with GPIO with internal clock
	SC28L92		3.3/5V dual channel UART (DUART) with 16-byte FIFOs; Intel or Motorola interface; CMOS; IMPACT series

	SSTV16859		2.5V 13-Bit to 26-Bit SSTL_2 Registered Driver for Stacked DDR DIMM
	SSTVF16859		13-bit 1:2 SSTL_2 registered buffer for DDR
	SSTVN16859		13-bit 1:2 SSTL_2 registered buffer for DDR

• Package Outline Drawings
• Standard Packing Quantities

The HVQFN package die supply ground is connected to both the GND pin and the exposed center pad. The GND pin must be connected to supply ground for proper device operation.

For enhanced thermal, electrical, and board-level performance, the exposed pad needs to be soldered to the board using a corresponding thermal pad on the board. For proper heat conduction through the board, thermal vias need to be incorporated in the PCB in the thermal pad region.

• AN10366 HVQFN Application Information, V2 (Jan 12, 2006)

• Contact Us for Surface Mount Assembly and Manufacturing Information