參數(shù)資料
型號(hào): ADP125ARHZ-R7
廠商: ANALOG DEVICES INC
元件分類: 可調(diào)正電壓?jiǎn)温份敵鯨DO穩(wěn)壓器
英文描述: 5.5V INPUT, 500 MA, LOW QUIESCENT CURRENT, CMOS LINEAR REGULATOR W/EXTERNAL VOLTAGE DIVIDER No of Pins: 8 Temperature Range: Ind
中文描述: 0.8 V-5 V ADJUSTABLE POSITIVE LDO REGULATOR, 0.23 V DROPOUT, PDSO8
封裝: ROHS COMPLIANT, MO-187AAT, MSOP-8
文件頁(yè)數(shù): 6/20頁(yè)
文件大小: 648K
代理商: ADP125ARHZ-R7
ADP124/ADP125
Rev. A | Page 14 of 20
CURRENT LIMIT AND THERMAL OVERLOAD
PROTECTION
The ADP124/ADP125 are protected from damage due to excessive
power dissipation by current and thermal overload protection
circuits. The ADP124/ADP125 are designed to limit the current
when the output load reaches 750 mA (typical). When the output
load exceeds 750 mA, the output voltage is reduced to maintain
a constant current limit.
Thermal overload protection is included, which limits the junction
temperature to a maximum of 150°C typical. Under extreme con-
ditions (that is, high ambient temperature and power dissipation),
when the junction temperature starts to rise above 150°C, the
output is turned off, reducing output current to zero. When the
junction temperature cools to less than 135°C, the output is turned
on again and the output current is restored to its nominal value.
Consider the case where a hard short from VOUT to GND occurs.
At first, the ADP124/ADP125 limit the current so that only 750 mA
is conducted into the short. If self-heating causes the junction
temperature to rise above 150°C, thermal shutdown activates,
turning off the output and reducing the output current to zero.
When the junction temperature cools to less than 135°C, the
output turns on and conducts 750 mA into the short, again
causing the junction temperature to rise above 150°C. This
thermal oscillation between 135°C and 150°C results in a current
oscillation between 750 mA and 0 mA that continues as long
as the short remains at the output.
Current and thermal limit protections are intended to protect the
device from damage due to accidental overload conditions. For
reliable operation, the device power dissipation must be externally
limited so that the junction temperature does not exceed 125°C.
THERMAL CONSIDERATIONS
To guarantee reliable operation, the junction temperature of the
ADP124/ADP125 must not exceed 125°C. To ensure that the
junction temperature is less than this maximum value, the user
needs to be aware of the parameters that contribute to junction
temperature changes. These parameters include ambient tem-
perature, power dissipation in the power device, and thermal
resistances between the junction and ambient air (θJA). The value
of θJA is dependent on the package assembly compounds used
and the amount of copper to which the GND pins of the package
are soldered on the PCB. Table 6 shows typical θJA values of the
8-lead MSOP package for various PCB copper sizes. Table 7
shows typical ΨJB values of the 8-lead MSOP and 8-lead 3 mm ×
3 mm LFCSP package.
Table 6. Typical θJA Values for Specified PCB Copper Sizes
θJA (°C/W)
Copper
Size (mm2)
MSOP
LFCSP
25
108.6
177.8
100
75.5
138.2
500
42.5
79.8
1000
34.7
67.8
6400
26.1
53.5
Table 7. Typical ΨJB Values
ΨJB (°C/W)
MSOP
LFCSP
31.7
44.1
The junction temperature of the ADP124/ADP125 can be
calculated from the following equation:
TJ = TA + (PD × θJA)
(2)
where:
TA is the ambient temperature.
PD is the power dissipation in the die, given by
PD = [(VIN VOUT) × ILOAD] + (VIN × IGND)
(3)
where:
ILOAD is the load current.
IGND is the ground current.
VIN and VOUT are input and output voltages, respectively.
The power dissipation due to ground current is quite small and
can be ignored. Therefore, the junction temperature equation
can be simplified as follows:
TJ = TA + {[(VIN VOUT) × ILOAD] × θJA}
(4)
As shown in Equation 4, for a given ambient temperature, input-
to-output voltage differential, and continuous load current, there
exists a minimum copper size requirement for the PCB to ensure
that the junction temperature does not rise above 125°C. Figure 36
through Figure 41 show junction temperature calculations for
different ambient temperatures, load currents, VIN to VOUT
differentials, and areas of PCB copper.
In cases where the board temperature is known, the thermal
characterization parameter, ΨJB, can be used to estimate the jun-
ction temperature rise. The maximum junction temperature (TJ) is
calculated from the board temperature (TB) and power dissipation
(PD) using the formula
TJ = TB + (PD × ΨJB)
(5)
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