REF02CP Analog Devices Inc, REF02CP Datasheet - Page 13
REF02CP
Manufacturer Part Number
REF02CP
Description
IC VOLT REFERENCE PREC 5V 8DIP
Manufacturer
Analog Devices Inc
Specifications of REF02CP
Rohs Status
RoHS non-compliant
Reference Type
Series
Voltage - Output
5V
Tolerance
±14%
Temperature Coefficient
65ppm/°C
Voltage - Input
7 ~ 40 V
Number Of Channels
1
Current - Quiescent
1.4mA
Current - Output
10mA
Operating Temperature
-40°C ~ 85°C
Mounting Type
Through Hole
Package / Case
8-DIP (0.300", 7.62mm)
Reference Volt Tolerance ±%
0.45%
Operating Temperature Max
85°C
Peak Reflow Compatible (260 C)
No
Output Voltage
5V
Current Rating
1.4mA
Output Voltage Max
5V
Leaded Process Compatible
No
Features
1.4mA
Fixed / Adjust / Prog
Precision
Output Voltage (max)
5V
Reference Voltage Accuracy (max)
1
Line Regulation
150ppm/V
Load Regulation
150ppm/mA
Input Voltage (max)
40V
Operating Temp Range
-40C to 85C
Operating Temperature Classification
Industrial
Mounting
Through Hole
Pin Count
8
Package Type
PDIP
Current - Cathode
-
Lead Free Status / Rohs Status
Not Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
REF02CP
Manufacturer:
MAXIM/美信
Quantity:
20 000
Part Number:
REF02CPZ
Manufacturer:
AD
Quantity:
20 000
TERMINOLOGY
Dropout Voltage (V
Dropout voltage, sometimes referred to as supply voltage
headroom or supply-output voltage differential, is defined as
the minimum voltage differential between the input and output
necessary for the device to operate.
Since the dropout voltage depends upon the current passing
through the device, it is always specified for a given load
current.
Temperature Coefficient (TCV
The temperature coefficient relates the change in output voltage
to the change in ambient temperature of the device, as normal-
ized by the output voltage at 25°C. This parameter is expressed
in ppm/°C and can be determined by the following equation:
where:
V
V
V
Thermally Induced Output Voltage Hysteresis (ΔV
Thermally induced output voltage hysteresis represents the
change in output voltage after the device is exposed to a
specified temperature cycle. This may be expressed as either a
shift in voltage or a difference in ppm from the nominal output.
where:
V
V
Thermal hysteresis occurs mainly as a result of forces exhibited
upon the internal die by its packaging. The effect is more
pronounced in parts with smaller packages.
OUT
OUT
OUT
OUT
OUT_TC
(25°C) is output voltage at 25°C.
(T
(T
(25°C)is output voltage at 25°C.
V
TCV
V
V
DO
OUT
OUT
1
2
) is output voltage at temperature 1.
) is output voltage at temperature 2.
is output voltage after temperature cycling.
=
OUT
_
_
HYS
HYS
(
V
IN
=
=
−
V
=
V
V
V
OUT
V
OUT
OUT
OUT
OUT
DO
(
25
( )
)
V
)
T
(
min
(
25
25
2
OUT
o
C
o
−
o
I
C
)
L
C
V
×
(
)
=
25
)
(
OUT
T
−
−
constant
o
2
V
O
V
C
)
−
OUT
( )
T
OUT
)
T
1
1
_
)
_
TC
×
TC
10
×
[ ]
V
6
10
[
ppm/
6
[
ppm
o
C
]
OUT_HYS
]
)
Rev. K | Page 13 of 20
Long-Term Stability (ΔV
Long-term stability refers to the shift in output voltage at 25°C
after 1000 hours of operation in a 25°C environment. This may
also be expressed as either a shift in voltage or a difference in
ppm from the nominal output.
where:
V
V
Line Regulation
Line regulation refers to the change in output voltage in
response to a given change in input voltage. It is expressed in
either percent per volt, ppm per volt, or microvolt per volt
change in input voltage. This parameter accounts for the effects
of self-heating.
Load Regulation
Load regulation refers to the change in output voltage in
response to a given change in load current, and is expressed
in either microvolts per milliamp, ppm per milliamp, or ohms
of DC output resistance. This parameter accounts for the effects
of self-heating.
OUT
OUT
(t
(t
ΔV
0
1
) is V
) is V
ΔV
OUT
OUT
_
OUT
OUT
LTD
_
LTD
at 25°C at time 0.
at 25°C after 1000 hours of operation at 25°C.
=
=
V
OUT
V
OUT
( )
V
t
OUT_LTD
1
OUT
( )
t
−
1
( )
V
REF01/REF02/REF03
t
−
0
)
OUT
V
OUT
( )
t
0
( )
t
0
×
10
[ ]
V
6
[
ppm
]
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