FAN3214TMX Fairchild Semiconductor, FAN3214TMX Datasheet - Page 12

FAN3214TMX

Manufacturer Part Number

FAN3214TMX

Description

IC GATE DRIVER DUAL 4A 8-SOIC

Manufacturer

Fairchild Semiconductor

Type

Dual-4A, High-Speed, Low-Side Gate Driverr

Datasheet

1.FAN3213TMX.pdf (18 pages)

Specifications of FAN3214TMX

Product

MOSFET Gate Drivers

Rise Time

12 ns

Fall Time

9 ns

Propagation Delay Time

17 ns

Supply Voltage (max)

20 V

Supply Voltage (min)

- 0.3 V

Supply Current

0.7 mA

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Package / Case

SOIC-8

Bridge Type

Full Bridge

Minimum Operating Temperature

- 40 C

Number Of Drivers

Number Of Outputs

Output Current

5 A

Output Voltage

20.3 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Current page: 12 of 18
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FAN3213 / FAN3214 • Rev. 1.0.2

Layout and Connection Guidelines

The FAN3213 and FAN3214 gate drivers incorporate

fast-reacting input circuits, short propagation delays,

and powerful output stages capable of delivering current

peaks over 4A to facilitate voltage transition times from

under 10ns to over 150ns. The following layout and

connection guidelines are strongly recommended:



Figure 29 shows the pulsed gate drive current path

when the gate driver is supplying gate charge to turn the

MOSFET on. The current is supplied from the local

bypass capacitor, C

the MOSFET gate and to ground. To reach the high

peak currents possible, the resistance and inductance in

the path should be minimized. The localized C

contain the high peak current pulses within this driver-

MOSFET circuit, preventing them from disturbing the

sensitive analog circuitry in the PWM controller.

Keep high-current output and power ground paths

separate from logic input signals and signal ground

paths. This is especially critical for TTL-level logic

thresholds at driver input pins.

Keep the driver as close to the load as possible to

minimize the length of high-current traces. This

reduces the series inductance to improve high-

speed switching, while reducing the loop area that

can radiate EMI to the driver inputs and surrounding

circuitry.

If the inputs to a channel are not externally

connected, the internal 100k resistors indicated

on block diagrams command a low output. In noisy

environments, it may be necessary to tie inputs of

an unused channel to VDD or GND using short

traces to prevent noise from causing spurious

output switching.

Many high-speed power circuits can be susceptible

to noise injected from their own output or other

external sources, possibly causing output re-

triggering. These effects can be obvious if the

circuit is tested in breadboard or non-optimal circuit

layouts with long input or output leads. For best

results, make connections to all pins as short and

direct as possible.

FAN3213 and FAN3214 are pin-compatible with

many other industry-standard drivers.

The turn-on and turn-off current paths should be

minimized, as discussed in the following section.

BYP

, and flows through the driver to

BYP

acts to

Figure 30 shows the current path when the gate driver

turns the MOSFET OFF. Ideally, the driver shunts the

current directly to the source of the MOSFET in a small

circuit loop. For fast turn-off times, the resistance and

inductance in this path should be minimized.

Figure 29. Current Path for MOSFET Turn-On

Figure 30. Current Path for MOSFET Turn-Off

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FAN3214TMX Fairchild Semiconductor, FAN3214TMX Datasheet - Page 12

FAN3214TMX

Specifications of FAN3214TMX

Available stocks

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