TC429 Microchip Technology, TC429 Datasheet - Page 9
TC429
Manufacturer Part Number
TC429
Description
CMOS Power MOSFET Driver
Manufacturer
Microchip Technology
Datasheet
1.TC429.pdf
(18 pages)
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FIGURE 4-3:
Due To Negative Feedback.
4.3
The input voltage level changes the no-load or
quiescent supply current. The N-channel MOSFET
input stage transistor drives a 3 mA current source
load. With a logic ‘1’ input, the maximum quiescent
supply current is 5 mA. Logic ‘0’ input level signals
reduce quiescent current to 500 µA maximum.
The TC429 input is designed to provide 300 mV of
hysteresis, providing clean transitions and minimizing
output stage current spiking when changing states.
Input voltage levels are approximately 1.5V, making the
device TTL-compatible over the 7V to 18V operating
supply range. Input pin current draw is less than 10 µA
over this range.
The TC429 can be directly driven by TL494, SG1526/
1527, SG1524, SE5560 or similar switch-mode
power supply integrated circuits. By off-loading the
power-driving duties to the TC429, the power supply
controller can operate at lower dissipation, improving
performance and reliability.
2003 Microchip Technology Inc.
Ground
Ground
Power
Logic
0.1 µF
0V
2.4V
TC429
Input Stage
300 mV
2
+18V
1
4
Switching Time Degradation
8 6,7
5
6A
PC Trace Resistance = 0.05
TEK Current
Probe 6302
0.1 µF
1 µF
2500 pF
18V
0V
FIGURE 4-4:
Circuit.
4.4
CMOS circuits usually permit the user to ignore power
dissipation. Logic families such as the 4000 and 74C
have outputs that can only supply a few milliamperes of
current, and even shorting outputs to ground will not
force enough current to destroy the device. The TC429,
however, can source or sink several amperes and drive
large capacitive loads at high frequency. Since the
package power dissipation limit can easily be
exceeded, some attention should be given to power
dissipation when driving low-impedance loads and/or
operating at high frequency.
The supply current versus frequency and supply
current versus capacitive load characteristic curves will
aid in determining power dissipation calculations.
Table 4-1 lists the maximum operating frequency for
several power supply voltages when driving a 2500 pF
load. More accurate power dissipation figures can be
obtained by summing the three components that make
up the total device power dissipation.
Input signal duty cycle, power supply voltage and
capacitive load influence package power dissipation.
Given power dissipation and package thermal resis-
tance, the maximum ambient operation temperature
is easily calculated. The 8-pin CERDIP junction-to-
ambient thermal resistance is 150 C/W. At +25 C, the
package is rated at 800 mW maximum dissipation.
Maximum allowable junction temperature is +150 C.
Three components make up total package power
dissipation:
• Capacitive load dissipation (P
• Quiescent power (P
• Transition power (P
The capacitive load-caused dissipation is a direct
function of frequency, capacitive load and supply
voltage.
0.1 µF
0V
2.4V
Power Dissipation
2
+18V
1
4
T
Q
8
5
Peak Output Current Test
)
)
6,7
TC429
0.1 µF
TEK Current
Probe 6302
1 µF
C
)
DS21416C-page 9
TC429
2500 pF
18V
0V
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