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参数资料
| 型号: | LT1766HGN#TR |
| 厂商: | LINEAR TECHNOLOGY CORP |
| 元件分类: | 稳压器 |
| 英文描述: | 3 A SWITCHING REGULATOR, 228 kHz SWITCHING FREQ-MAX, PDSO16 |
| 封装: | 0.150 INCH, PLASTIC, SSOP-16 |
| 文件页数: | 13/28页 |
| 文件大小: | 284K |
| 代理商: | LT1766HGN#TR |
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20
LT1766/LT1766-5
1766fb
Thermal resistance for the LT1766 packages is influenced
by the presence of internal or backside planes.
SSOP (GN16) Package: With a full plane under the GN16
package, thermal resistance will be about 85
°C/W.
TSSOP (Exposed Pad) Package: With a full plane under the
TSSOP package, thermal resistance will be about 45
°C/W.
To calculate die temperature, use the proper thermal
resistance number for the desired package and add in
worst-case ambient temperature:
TJ = TA + (θJA PTOT)
When estimating ambient, remember the nearby catch
diode and inductor will also be dissipating power:
P
VV
V
I
V
DIODE
F
IN
OUT
LOAD
IN
=
( )(
–
)(
)
VF = Forward voltage of diode (assume 0.63V at 1A)
PW
DIODE ==
(.
)(
– )( )
.
063 40 5 1
40
055
PINDUCTOR = (ILOAD)2 (RL)
RL = Inductor DC resistance (assume 0.1)
PINDUCTOR (1)2 (0.1) = 0.1W
Only a portion of the temperature rise in the external
inductor and diode is coupled to the junction of the LT1766.
Based on empirical measurements the thermal effect on
LT1766 junction temperature due to power dissipation in
the external inductor and catch diode can be calculated as:
TJ(LT1766) ≈ (PDIODE + PINDUCTOR)(10°C/W)
Using the example calculations for LT1766 dissipation,
the LT1766 die temperature will be estimated as:
TJ = TA + (θJA PTOT) + [10 (PDIODE + PINDUCTOR)]
With the GN16 package (
θJA = 85°C/W), at an ambient
temperature of 60
°C:
TJ = 60 + (85 0.53) + (10 0.65) = 112°C
With the TSSOP package (
θJA = 45°C/W), at an ambient
temperature of 60
°C:
TJ = 60 + (45 0.53) + (10 0.65) = 90°C
APPLICATIO S I FOR ATIO
WU
UU
Die temperature can peak for certain combinations of VIN,
VOUT and load current. While higher VIN gives greater
switch AC losses, quiescent and catch diode losses, a
lower VIN may generate greater losses due to switch DC
losses. In general, the maximum and minimum VIN levels
should be checked with maximum typical load current for
calculation of the LT1766 die temperature. If a more
accurate die temperature is required, a measurement of
the SYNC pin resistance (to GND) can be used. The SYNC
pin resistance can be measured by forcing a voltage no
greater than 0.5V at the pin and monitoring the pin current
over temperature in an oven. This should be done with
minimal device power (low VIN and no switching
(VC = 0V)) in order to calibrate SYNC pin resistance with
ambient (oven) temperature.
Note: Some of the internal power dissipation in the IC, due
to BOOST pin voltage, can be transferred outside of the IC
to reduce junction temperature, by increasing the voltage
drop in the path of the boost diode D2 (see Figure 9). This
reduction of junction temperature inside the IC will allow
higher ambient temperature operation for a given set of
conditions. BOOST pin circuitry dissipates power given
by:
P
VI
V
DISS BOOST
OUT
SW
C
IN
()
(
/
)
=
36
2
Typically VC2 (the boost voltage across the capacitor C2)
equals Vout. This is because diodes D1 and D2 can be
considered almost equal, where:
VC2 = VOUT – VFD2 – (–VFD1) = VOUT
Hence the equation used for boost circuitry power dissipa-
tion given in the previous Thermal Calculations section is
stated as:
P
VI
V
DISS BOOST
OUT
SW
OUT
IN
()
(
/
)
=
36
Here it can be seen that boost power dissipation increases
as the square of VOUT. It is possible, however, to reduce
VC2 below VOUT to save power dissipation by increasing
the voltage drop in the path of D2. Care should be taken
that VC2 does not fall below the minimum 3.3V boost
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