LT3029 Просмотр технического описания (PDF) - Linear Technology
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LT3029 Datasheet PDF : 20 Pages
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LT3029
APPLICATIONS INFORMATION
Table 2. DE Package, 16-Lead DFN
COPPER AREA
TOPSIDE* BACKSIDE
2500mm2 2500mm2
THERMAL RESISTANCE
BOARD AREA (JUNCTION-TO-AMBIENT)
2500mm2
36°C/W
1000mm2 2500mm2 2500mm2
37°C/W
225mm2
100mm2
2500mm2
2500mm2
2500mm2
2500mm2
38°C/W
40°C/W
*Device is mounted on topside.
Table 3. MSE Package, 16-Lead MSOP
COPPER AREA
TOPSIDE* BACKSIDE
2500mm2 2500mm2
THERMAL RESISTANCE
BOARD AREA (JUNCTION-TO-AMBIENT)
2500mm2
35°C/W
1000mm2 2500mm2 2500mm2
36°C/W
225mm2
100mm2
2500mm2
2500mm2
2500mm2
2500mm2
37°C/W
39°C/W
*Device is mounted on topside.
The junction-to-case thermal resistance (θJC), measured
at the Exposed Pad on the back of the die, is 4.3°C/W for
the DFN package, and 5°C/W to 10°C/W for the MSOP
package.
Calculating Junction Temperature
Example: Channel 1’s output voltage is set to 1.8V. Chan-
nel 2’s output voltage is set to 1.5V. Each channel’s input
voltage is 2.5V. Each channel’s output current range is
0mA to 500mA. The application has a maximum ambient
temperature of 50°C. What is the LT3029’s maximum
junction temperature?
The power dissipated by each channel equals:
IOUT(MAX)(VIN – VOUT) + IGND(VIN)
where for each output:
IOUT(MAX) = 500mA
VIN = 2.5V
IGND at (IOUT = 500mA, VIN = 2.5V) = 8.5mA
So, for output 1:
P = 500mA (2.5V – 1.8V) + 8.5mA (2.5V) = 0.37W
For output 2:
P = 500mA (2.5V – 1.5V) + 8.5mA (2.5V) = 0.52W
The thermal resistance is in the range of 35°C/W to 40°C/W,
depending on the copper area. So, the junction temperature
rise above ambient temperature approximately equals:
(0.37W + 0.52W) 39°C/W = 34.7°C
The maximum junction temperature then equals the maxi-
mum ambient temperature plus the maximum junction
temperature rise above ambient temperature, or:
TJMAX = 50°C + 34.7°C = 84.7°C
Protection Features
The LT3029 regulator incorporates several protection fea-
tures that make it ideal for use in battery-powered circuits.
In addition to the normal protection features associated
with monolithic regulators, such as current limiting and
thermal limiting, the device protects itself against reverse
input voltages and reverse voltages from output to input.
The two regulators have independent inputs, a common
GND pin and are thermally coupled. However, the two
channels of the LT3029 operate independently. Each
channel’s output can be shut down independently, and
a fault condition on one output does not affect the other
output electrically, unless the thermal shutdown circuitry
is activated.
Current limit protection and thermal overload protection
protect the device against current overload conditions at
each output of the LT3029. For normal operation, do not
allow the junction temperature to exceed 125°C (LT3029E/
LT3029I/LT3029MP) or 150°C (LT3029H). The typical ther-
mal shutdown temperature threshold is 165°C and the
circuitry incorporates approximately 5°C of hysteresis.
Each channel’s input withstands reverse voltages of 22V.
Current flow into the device is limited to less than 1mA
(typically less than 100μA) and no negative voltage appears
at the respective channel’s output. The device protects
both itself and the load against batteries that are plugged
in backwards.
The LT3029 incurs no damage if either channel’s output
is pulled below ground. If the input is left open-circuit, or
grounded, the output can be pulled below ground by 22V.
The output acts like an open circuit, and no current flows
from the output. However, current flows in (but is limited
by) the external resistor divider that sets the output voltage.
3029fa
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