ETC ZRA124R01

PRECISION 1.25 VOLT
MICROPOWER VOLTAGE REFERENCE
ZRA124
ZRA124
ISSUE 2 - FEBRUARY 1997
CONNECTION DIAGRAMS
E-Line, 2 pin Package Suffix – Y
Bottom View
E-Line, 3 pin Package Suffix – A
Bottom View –
Pin 1 floating or connected to pin 3
E-Line, 3 pin,Rev Package Suffix – R
Bottom View –
Pin 3 floating or connected to pin 1
SO8 Package Suffix – N8
DEVICE DESCRIPTION
The ZRA124 uses a bandgap circuit design to
achieve a precision micropower voltage
reference of 1.24 volts. The device is available
in small outline surface mount packages, ideal
for applications where space saving is
important, as well as packages for through
hole requirements.
The ZRA124 design provides a stable voltage
without an external capacitor and is stable with
capacitive loads. The ZRA124 is recommended
for operation between 50µA and 5mA and so
is ideally suited to low power and battery
powered applications.
Excellent performance is maintained to a
suggested absolute maximum of 25mA,
however the rugged design and 20 volt
processing allows the reference to withstand
transient effects and currents up to 200mA.
Superior switching capability allows the device
to reach stable operating conditions in only a
few microseconds.
FEATURES
•
Top View
•
Small outline SOT23, SO8 and TO92 style
packages
No stabilising capacitor required
SCHEMATIC DIAGRAM
SOT23 Package Suffix – F
Top View –
Pin 1 floating or connected to pin 2
ORDERING INFORMATION
Part No
Tol% Package
ZRA124A01
1
E-Line •
ZRA12401
ZRA124F01
1
SOT23
12C
ZRA124N801
1
SO8
ZRA12401
ZRA124R01
1
E-Line *
ZRA124R1
ZRA124Y01
1
E-Line †
ZRA12401
V
R
Partmark
* E-Line 3 pin Reversed
† E-Line 2 pin
• E-Line 3 pin
G nd
1 - 21
•
•
•
•
•
•
Typical TC 30ppm/°C
Typical slope resistance 0.65Ω
± 1% tolerance
Industrial temperature range
Operating current 50µA to 5mA
Transient response, stable in less than 10µs
APPLICATIONS
•
•
•
•
•
•
Battery powered and portable equipment.
Metering and measurement systems.
Instrumentation.
Precision power supplies.
Test equipment.
Data acquisition systems
ZRA124
ZRA124
CONDITIONS
Reverse Breakdown Voltage IR=150µA
IMIN
Minimum Operating
Current
IR
Recommended Operating
Current
TC †
Average Reverse
Breakdown Voltage Temp.
Co.
TOL.
%
MIN
TYP MAX
1.228
1.24 1.252
30
0.05
30
IR(min) to
IR(max)
UNITS
1.2
1.26
1.0
0.8
0.6
0.4
V
µA
5
mA
90
ppm/°C
1
10
100
Ω
ZR
Reverse Dynamic Impedance IR = 1mA
f = 100Hz
IAC= 0.1 IR
0.5
Ω
Wideband Noise Voltage
40
IR = 150µA
f = 100Hz to
10kHZ
1
1.24
1.23
1.22
-40
1000
-20
0
20
40
60
80
Temperature (°C)
Forward Characteristics
Temperature Drift
1000
1.0
0.65 2
1.25
Forward Current (mA)
50
Slope Resistance
IR=150µA to 5mA
1.21
0.1
RS §
EN
1.27
0.2
1
Slope resistance (Ω)
VR
LIMITS
1.4
Reference voltage (V)
ELECTRICAL CHARACTERISTICS
TEST CONDITIONS (Unless otherwise stated) Tamb=25°C
SYMBOL PARAMETER
TYPICAL CHARACTERISTICS
Power Dissipation (Tamb=25°C)
SOT23
330mW
E-Line, 3 pin (TO92)
500mW
E-Line, 2 pin (TO92)
500mW
SO8
625mW
25mA
25mA
-40 to 85°C
-55 to 125°C
Forward Voltage (V)
Reverse Current
Forward Current
Operating Temperature
Storage Temperature
100
Slope resistance (Ω)
ABSOLUTE MAXIMUM RATING
TA=-40°C
TA=25°C
0.5
TA =85°C
IR=150µA
10
IR=1mA
IR=5mA
1
0.1
µV(rms)
0.01
0
0.1
1
0.1
10
1
10
100
Frequency (kHz)
Reference Current (mA)
Slope Resistance v Current
Slope Resistance v Frequency
1.5
1.5
30
20
TA
=8
A=
2
5
°C
T
10
1.0
INPUT
R
C
5°
A=
58K
0.5
0
-4
V - (V)
40
V - (V)
1.0
INPUT
R
1 K8
O UTPUT
0.5
O UTPUT
°C
T
0
0
10
10
0
0.2
0.4
0.6
0.8
1.0
1.2
Reverse Voltage (V)
Reverse Characteristics
1.4
NI
- (V)
0
NI
0
V
VR Change (IR (min) to IR (max))
RS =
IR (max) − IR (min)
50
- (V)
§
VR Change x 1000000
VR x Temperature Change
V
† TC =
Reverse Current (µA)
60
0
1
2
3
4
0
Time (µs)
2
4
6
Time (µs)
Transient Response (IR=5mA)
µA)
Transient Response (IR=150µ
1 - 22
0
1 - 23
8
ZRA124
ZRA124
CONDITIONS
Reverse Breakdown Voltage IR=150µA
IMIN
Minimum Operating
Current
IR
Recommended Operating
Current
TC †
Average Reverse
Breakdown Voltage Temp.
Co.
TOL.
%
MIN
TYP MAX
1.228
1.24 1.252
30
0.05
30
IR(min) to
IR(max)
UNITS
1.2
1.26
1.0
0.8
0.6
0.4
V
µA
5
mA
90
ppm/°C
1
10
100
Ω
ZR
Reverse Dynamic Impedance IR = 1mA
f = 100Hz
IAC= 0.1 IR
0.5
Ω
Wideband Noise Voltage
40
IR = 150µA
f = 100Hz to
10kHZ
1
1.24
1.23
1.22
-40
1000
-20
0
20
40
60
80
Temperature (°C)
Forward Characteristics
Temperature Drift
1000
1.0
0.65 2
1.25
Forward Current (mA)
50
Slope Resistance
IR=150µA to 5mA
1.21
0.1
RS §
EN
1.27
0.2
1
Slope resistance (Ω)
VR
LIMITS
1.4
Reference voltage (V)
ELECTRICAL CHARACTERISTICS
TEST CONDITIONS (Unless otherwise stated) Tamb=25°C
SYMBOL PARAMETER
TYPICAL CHARACTERISTICS
Power Dissipation (Tamb=25°C)
SOT23
330mW
E-Line, 3 pin (TO92)
500mW
E-Line, 2 pin (TO92)
500mW
SO8
625mW
25mA
25mA
-40 to 85°C
-55 to 125°C
Forward Voltage (V)
Reverse Current
Forward Current
Operating Temperature
Storage Temperature
100
Slope resistance (Ω)
ABSOLUTE MAXIMUM RATING
TA=-40°C
TA=25°C
0.5
TA =85°C
IR=150µA
10
IR=1mA
IR=5mA
1
0.1
µV(rms)
0.01
0
0.1
1
0.1
10
1
10
100
Frequency (kHz)
Reference Current (mA)
Slope Resistance v Current
Slope Resistance v Frequency
1.5
1.5
30
20
TA
=8
A=
2
5
°C
T
10
1.0
INPUT
R
C
5°
A=
58K
0.5
0
-4
V - (V)
40
V - (V)
1.0
INPUT
R
1 K8
O UTPUT
0.5
O UTPUT
°C
T
0
0
10
10
0
0.2
0.4
0.6
0.8
1.0
1.2
Reverse Voltage (V)
Reverse Characteristics
1.4
NI
- (V)
0
NI
0
V
VR Change (IR (min) to IR (max))
RS =
IR (max) − IR (min)
50
- (V)
§
VR Change x 1000000
VR x Temperature Change
V
† TC =
Reverse Current (µA)
60
0
1
2
3
4
0
Time (µs)
2
4
6
Time (µs)
Transient Response (IR=5mA)
µA)
Transient Response (IR=150µ
1 - 22
0
1 - 23
8
PRECISION 1.25 VOLT
MICROPOWER VOLTAGE REFERENCE
ZRA124
ZRA124
ISSUE 2 - FEBRUARY 1997
CONNECTION DIAGRAMS
E-Line, 2 pin Package Suffix – Y
Bottom View
E-Line, 3 pin Package Suffix – A
Bottom View –
Pin 1 floating or connected to pin 3
E-Line, 3 pin,Rev Package Suffix – R
Bottom View –
Pin 3 floating or connected to pin 1
SO8 Package Suffix – N8
DEVICE DESCRIPTION
The ZRA124 uses a bandgap circuit design to
achieve a precision micropower voltage
reference of 1.24 volts. The device is available
in small outline surface mount packages, ideal
for applications where space saving is
important, as well as packages for through
hole requirements.
The ZRA124 design provides a stable voltage
without an external capacitor and is stable with
capacitive loads. The ZRA124 is recommended
for operation between 50µA and 5mA and so
is ideally suited to low power and battery
powered applications.
Excellent performance is maintained to a
suggested absolute maximum of 25mA,
however the rugged design and 20 volt
processing allows the reference to withstand
transient effects and currents up to 200mA.
Superior switching capability allows the device
to reach stable operating conditions in only a
few microseconds.
FEATURES
•
Top View
•
Small outline SOT23, SO8 and TO92 style
packages
No stabilising capacitor required
SCHEMATIC DIAGRAM
SOT23 Package Suffix – F
Top View –
Pin 1 floating or connected to pin 2
ORDERING INFORMATION
Part No
Tol% Package
ZRA124A01
1
E-Line •
ZRA12401
ZRA124F01
1
SOT23
12C
ZRA124N801
1
SO8
ZRA12401
ZRA124R01
1
E-Line *
ZRA124R1
ZRA124Y01
1
E-Line †
ZRA12401
V
R
Partmark
* E-Line 3 pin Reversed
† E-Line 2 pin
• E-Line 3 pin
G nd
1 - 21
•
•
•
•
•
•
Typical TC 30ppm/°C
Typical slope resistance 0.65Ω
± 1% tolerance
Industrial temperature range
Operating current 50µA to 5mA
Transient response, stable in less than 10µs
APPLICATIONS
•
•
•
•
•
•
Battery powered and portable equipment.
Metering and measurement systems.
Instrumentation.
Precision power supplies.
Test equipment.
Data acquisition systems