1
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
■Tiny 5-pin SC-70 Package
■Guaranteed 100 mA Output
■2.5% Output Voltage Accuracy
■Low Dropout Voltage: 250 mV at 100mA
■Low Quiescent Current: 65 µA
■Low Ground Current: 135 µA @ IL = 100mA
■Low Shutdown Current: 1µA MAX
■Current Limit: 190mA
■Thermal Shutdown: 168°C
■Good Load and Line Regulation
■Fast Transient Response: TON/TOFF=80µs
■Low Temperature Coefficient
■Unconditionally Stable with 1µF Ceramic
■Fixed Outputs: 1.8V, 2.5V, 2.7V, 2.85V, 3.0V, 3.3V, 5V
■100mA Replacement for 80mA MIC5213 & TC1016
(SP6213)
■100mA Replacement for 80mA NCP512 (SP6214)
Micropower, SC-70, 100mA CMOS LDO Regulator
SP6213/SP6214
DESCRIPTION
The SP6213/4 is a 100mA CMOS linear voltage regulator offered in an SC-70 package that reduces board space
requirements by 50% over a SOT-23 package. The SP6213/4 features low dropout voltage (250mV at 100mA ), low
ground current (135µA at full load) and low, 65µA quiescent current. Designed specifically for hand-held, battery
powered devices, the device includes an enable/shutdown pin. Regulator ground current increases only slightly in
dropout to extend battery life. The SP6213/4 is offered in an industry standard 5-pin SC-70 package. SP6213/4 is
available in 1.8V, 2.5V, 2.7V, 2.85V, 3.0V, 3.3V and 5.0V fixed output voltages.
FEATURES
®
■Digital Cordless Phones
■Cellular Phones
■PDAs
■Digital Still Cameras
■MP3 Players
■Battery-Powered Equipment
■Medical Devices
■Data Cable
APPLICATIONS
*connect to GND for enhanced
thermal performance
SP6213
5 Pin SC70
5
V
IN
1
EN
3
GND
4
V
OUT
2
NC*
FUNCTIONAL DIAGRAM
VOUT
+
–
Current Limit
& Thermal Shutdown
1.25V
Bandgap
Reference
VIN
GND
EN
Enable
Shutdown
SP6214
5 Pin SC70
5
V
IN
1
EN
3
GND
4
V
OUT
2
NC*
Now Available in Lead Free Packaging
2
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
Supply Input Voltage (VIN)...................................-2V to 7V
Output Voltage (VOUT)...............................-0.6 to (VIN +1V)
Enable Input Voltage (VEN).............................-2V to 7V
Power Dissipation (PD)............Internally Limited, Note 3
Lead Temperature (soldering 5s)..........................260°C
Storage Temperature............................-65˚C to +150˚C
Input Voltage (VIN) ................................... +2.5V to +6V
Enable Input Voltage (VEN) ...................... ZeroV to +6V
Junction Temperature (TJ) ................. -40˚C to +125˚C
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erutarepmeTegatloVtuptuO
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TUO
/∆)T
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egatloVylppuSmuminiM05.2
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07.2
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I
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)10.0
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I(,7etoN,tnerruCniPdnuorG
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)56521 µA♦V
NE
≥I,V6.1
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001= µA
001571 µA♦V
NE
≥I,V6.1
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Am05=
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NE
≥I,V6.1
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zHk001otzH01,Fµ1=
(Note 1) These are stress ratings only and functional
operation of the device at these ratings or any other
above those indicated in the operation sections of the
specifications below is not implied. Exposure to absolute
maximum rating conditions for extended periods of time
may affect reliability.
ABSOLUTE MAXIMUM RATINGS (Note 1)
OPERATING RATINGS (Note 2)
Thermal Resistance ................................... (Note 3)
SC-70-5 (θJA) .............................. 330°C/W
ELECTRICAL CHARACTERISTICS
VIN = VOUT +0.5V, IL = 100µA, CIN = 1µF, COUT = 1µF, TJ = 25°C , unless otherwise noted. The ♦ denotes the specifications which apply over the full
operating temperature range, unless otherwise specified.
3
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
Note 1. Exceeding the absolute maximum rating may damage the device.
Note 2. The device is not guaranteed to function outside its operating rating.
Note 3. The maximum allowable power dissipation at any TA (ambient temperature) is PD (MAX) = (TJ (MAX)– TA) / θJA.
Exceeding the maximum allowable power dissipation will result in excessive die temperature, and the
regulator will go into thermal shutdown. The θJA of the SP6213/4 (SC-70-5) is 330°C/W mounted on a PC
board with minimum copper area (see “Thermal Considerations” section for further details).
Note 4. Output voltage temperature coefficient is defined as the worst case voltage change divided by the total
temperature range.
Note 5. Load Regulation is measured at constant junction temperature using low duty cycle pulse testing. Parts
are tested for load regulation in the load range. Changes in output voltage due to heating effects are
covered by the thermal regulation specification.
Note 6. Dropout Voltage is defined as the input to output differential at which the output voltage drops 2% below
its nominal value measured at 0.5V differential. Not applicable to output voltages less than 2.7V.
Note 7. Ground pin current is the regulator quiescent current. The total current drawn from the supply is the sum
of the load current plus the ground pin current.
Note 8. Thermal regulation is defined as the change in output voltage at a time ”t” after a change in power
dissipation is applied, excluding load or line regulation effects. Specifications are for a 100mA load pulse
at VIN = 6V for t = 10ms.
Note 9.Devices are ESD sensitive. Handling precautions are recommended.
RETEMARAPNIMPYTXAMSTINU ♦♦
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ELECTRICAL CHARACTERISTICS
VIN = VOUT +0.5V, IL = 100µA, CIN = 1µF, COUT = 1µF, TJ = 25°C , unless otherwise noted. The ♦ denotes the specifications which apply over
the full operating temperature range, unless otherwise specified.
PIN NUMBER PIN NAME SP6214 DESCRIPTION (FUNCTION)
1V
IN Supply Input
2GND Ground Connection
3ENEnable / Shutdown (Logic high=enable; logic low = shutdown)
4NCNo Connection
5V
OUT Regulator Output
PIN DESCRIPTION
PIN NUMBER PIN NAME SP6213 DESCRIPTION (FUNCTION)
1ENEnable / Shutdown (Logic high=enable; logic low = shutdown)
2NCNo Connection
3GND Ground Connection
4V
OUT Regulator Output
5V
IN Supply Input
4
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
General Overview
Enable/Shutdown Operation
The SP6213/4 is turned off by pulling the EN
pin low and turned on by pulling it high. If this
enable/shutdown feature is not required, EN
should be tied to VIN to keep the regulator
output on at all times.
Input Capacitor
Any good quality ceramic or tantalum capaci-
tor may be used at the input. A small capacitor
of about 1µF is required from VIN to GND if, for
instance, a battery is used as the input.
Output Capacitor
An output capacitor is required between VOUT
and GND to prevent oscillation. The minimum
size of the output capacitor is a 0.47 µF
ceramic. The given datasheet values relate to
an IC with a ceramic output capacitor of 1µF.
Larger values make the IC more stable which
means an improvement of the regulator’s
transient response. For a lower output cur-
rent, the output capacitance can be chosen
smaller in order to have the same output
stability.
No Load Stability
The SP6213/4 will remain stable and in regu-
lation with no external load (other than the
internal voltage driver) unlike many other volt-
age regulators. This is especially important in
CMOS RAM keep-alive applications.
Thermal Considerations
The SP6213/4 is designed to provide 100 mA
of continuous current in a very tiny package.
Maximum power dissipation can be calcu-
lated based on the output current and the
voltage drop across the part. To determine
the maximum power dissipation of the pack-
age, use the junction-to-ambient thermal re-
sistance of the device and the following basic
equation:
PD = (TJ(max) - TA) / θJA
TJ(max) is the maximum junction temperature
of the die and is 125°C. TA is the ambient
operating temperature. θJA is the junction-to-
ambient thermal resistance for the regulator
and is layout dependent. The actual power
dissipation of the regulator circuit can be
determined using one simple equation:
PD = (VIN - VOUT)*IOUT + VIN*IGND
Substituting PD(max) for PD and solving for the
operating conditions that are critical to the
application will give the maximum operating
conditions for the regulator circuit. For ex-
ample, if we are operating the SP6213/4 at
3.0V output at room temperature, with a mini-
mum footprint layout, we can determine the
maximum input voltage for a set output cur-
rent:
PD(max) = [(125°C -25°C) / (330°C/W)]
= 303 mW.
To prevent the device from entering thermal
shutdown, maximum power dissipation can
not be exceeded. Using the output voltage of
3.0V and an output current of 100 mA, the
maximum input voltage can be determined.
Ground pin current can be taken from the
electrical specifications table (0.135 mA at
100 mA). The maximum input voltage is de-
termined as follows:
303mW = (VIN – 3.0V)*100mA + VIN*0.135mA
After calculations, we find that the maximum
input voltage of a 3.0V application at 100mA
of output current in an SC-70-5 package is
6.02V.
THEORY OF OPERATION
5
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
27°C, VIN=4V, IL = 0.1mA, CIN = COUT = 1µF unless otherwise specified.
3
3.01
3.02
3.03
3.04
3.05
-50 0 50 100 150
Temperature (°C)
V
OUT
(V)
V
IN
=4V
V
IN
=5.5V
V
IN
=7V
2.99
3
3.01
3.02
3.03
3.04
3.05
-50 0 50 100 150
Temperature (°C)
V
OUT
(V)
V
IN
=4V
V
IN
=5.5V
V
IN
=7V
2.97
2.98
2.99
3
3.01
3.02
3.03
3.04
-50 0 50 100 150
Tem
p
erature
(
°C
)
V
OUT
(V)
V
IN
=4
V
V
IN
=5.5V
V
IN
=7V
2.95
2.96
2.97
2.98
2.99
3
3.01
3.02
3.03
3.04
-50 0 50 100 150
Temperature (°C)
V
OUT
(V)
V
IN
=4V
V
IN
=5.5V
V
IN
=7V
0
50
100
150
200
-50 0 50 100 150
Temperature (°C)
Iq (uA)
V
IN
=4V
V
IN
=5.5V
V
IN
=7V
0
0.05
0.1
0.15
0.2
0.25
-40 -20 0 20 40 60 80 100 120 140
Tem
p
erature
(
°C
)
V
DROPOUT
(V)
I
LOAD
=10mA
I
LOAD
=50mA
I
LOAD
=100mA
Line Regulation at 27°C
3.015
3.025
3.035
3.045
34567
V
IN
(V)
V
OUT
(V)
Io=0.1mA
Io=10mA
Io=50mA
Io=100mA
3.025
3.030
3.035
3.040
3.045
020406080100
Io (mA)
V
OUT
(V)
Vin = 4V
Vin = 5.5V
Vin = 7V
3.025
3.030
3.035
3.040
3.045
020406080100
V
IN
= 4V
V
IN
= 5.5V
V
IN
= 7V
Output Voltage vs. Temperature (IOUT = 0.1mA) Output Voltage vs. Temperature (IOUT = 10mA)
Output Voltage vs. Temperature (IOUT = 50mA) Output Voltage vs. Temperature (IOUT = 100mA)
Quiescent Current vs. Temperature (IOUT = 0A) Dropout Voltage vs. Temperature
Output Voltage vs. Output Current Output Voltage vs. Input Voltage
TYPICAL PERFORMANCE CHARACTERISTICS
6
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
27°C, VIN=4V, IL = 0.1mA, CIN = COUT = 1µF unless otherwise specified.
0
50
100
150
200
250
0255075100
Io (mA)
V
DROPOUT
(mV)
0
20
40
60
80
100
01234567
V
IN
(V)
0
1
2
3
4
5
6
EN = Vin
EN = 0V
Iq (uA)
0
50
100
150
200
0255075100
Io (mA)
IGND (uA)
V
IN
= 4V
V
IN
= 5.5V
V
IN
= 7V
0
25
50
75
100
125
150
175
34567
V
IN
(V)
I
GND
(uA)
Io=0.1mA
Io=10mA
Io=50mA
Io=100mA
Quiescent Current vs. Input Voltage Ground Current vs. Output Current
Ground Current vs. Input Voltage Dropout Voltage vs. Output Current
SP6213-3.0VOUT fixed
VEN is toggled, VIN=4VCTE
IOUT=100uA
CIN=COUT=1uF Cer. Cap
VOUT
VEN
3V
2V
1V
0V
4V
2V
0V
Turn-on Characteristic (VIN = 4V, IOUT = 100µA) Turn-on Characteristic (VIN = 4V, IOUT=100mA)
SP6213-3.0V
OUT
fixed
V
EN
is toggled, V
IN
=7V
CTE
I
OUT
=100uA
C
IN
=C
OUT
=1uF Cer. Cap
V
OUT
V
EN
3V
2V
1V
0V
4V
2V
0V
Turn-on Characteristic (VIN = 7V, IOUT = 100µA)
SP6213-3.0V
OUT
fixed
V
EN
is toggled, V
IN
=7V
CTE
I
OUT
=100mA
C
IN
=C
OUT
=1uF Cer. Cap
V
OUT
V
EN
3V
2V
1V
0V
4V
2V
0V
Turn on Time (VIN = 7V, IOUT = 100mA)
TYPICAL PERFORMANCE CHARACTERISTICS
7
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
SP6213-3.0V
OUT
fixed
V
EN
is toggled, V
IN
=4V
CTE
I
OUT
=100uA
C
IN
=C
OUT
=1uF Cer. Cap
V
OUT
V
EN
200mA
0mA
3V
2V
0V
4V
2V
0V
200mA
I
IN
(VIN = 4V, IOUT = 100µA)
SP6213-3.0V
OUT
fixed
V
EN
is toggled, V
IN
=4V
CTE
I
OUT
=100uA
C
IN
=C
OUT
=1uF Cer. Cap
V
OUT
V
EN
3V
2V
1V
0V
4V
2V
0V
Turn off Time (VIN=4V, IOUT=100µA)
Turn off time
SP6213-3.0V
OUT
fixed
V
EN
is toggled, V
IN
=4V
CTE
I
OUT
=100mA
C
IN
=C
OUT
=1uF Cer. Cap
V
OUT
V
EN
3V
2V
1V
0V
4V
2V
0V
Turn off Time (VIN = 4V, IOUT = 100mA)
SP6213-3.0V
OUT
fixed
V
EN
is toggled, V
IN
=7V
CTE
I
OUT
=100uA
C
IN
=C
OUT
=1uF Cer. Cap
V
OUT
V
EN
3V
2V
1V
0V
4V
2V
0V
Turn off Time (VIN = 7V, IOUT = 100µA)
SP6213-3.0V
OUT
fixed
V
EN
is toggled, V
IN
=7V
CTE
I
OUT
=100mA
C
IN
=C
OUT
=1uF Cer. Cap
V
OUT
V
EN
3V
2V
1V
0V
4V
2V
0V
Turn off Time (VIN = 7V, IOUT = 100mA)
SP6213-3.0V
OUT
fixed
V
EN
is toggled, V
IN
=4V
CTE
I
OUT
=100mA
C
IN
=C
OUT
=1uF Cer. Cap
V
OUT
V
EN
200mA
0mA
3V
2V
0V
4V
2V
0V
200mA
I
IN
In-Rush Current (VIN = 4V, IOUT = 100mA)
SP6213-3.0V
OUT
fixed
V
IN
=4V
CTE
C
IN
=C
OUT
=1uF Cer. Cap
T
R
=T
F
=100ns
I
OUT
100uA
V
OUT
20mV
10mV
0mV
-10mV
100mA
0mA
Load Transient Response (VIN = 4V)
SP6213-3.0V
OUT
fixed
V
IN
=4V
CTE
C
IN
=C
OUT
=1uF Cer. Cap
T
R
=T
F
=100ns
I
OUT
100uA
V
OUT
20mV
10mV
0mV
-10mV
100mA
0mA
Load Transient Response (VIN = 4V)
27°C, VIN=4V, IL = 0.1mA, CIN = COUT = 1µF unless otherwise specified.
TYPICAL PERFORMANCE CHARACTERISTICS
8
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
-100
-80
-60
-40
-20
0
Frequency (Hz)
PSRR, DB
10mA
50mA
10 100 1000 10000 100000 1000000
Power Supply Rejection Ratio, VO=3V
SP6213-3.0V
OUT
fixed
V
IN
=7V
CTE
C
IN
=C
OUT
=1uF Cer. Cap
T
R
=T
F
=100ns
I
OUT
100uA
V
OUT
20mV
10mV
0mV
-10mV
100mA
0mA
Load Transient Response (VIN = 7V)
SP6213-3.0V
OUT
fixed
V
IN
=7V
CTE
C
IN
=C
OUT
=1uF Cer. Cap
T
R
=T
F
=100ns
I
OUT
100uA
V
OUT
20mV
10mV
0mV
-10mV
100mA
0mA
Load Transient Response (VIN = 7V)
SP6213-3.0V
OUT
fixed
I
OUT=
100uA
C
OUT
=1uF Cer. Cap
V
IN
V
OUT
5V
4V
5mV
0mV
-5mV
-10mV
Line Transient Response (VIN=4V, IOUT=100µA)
Line Transient Response
SP6213-3.0V
OUT
fixed
I
OUT=
10mA
C
OUT
=1uF Cer. Cap
V
IN
V
OUT
5V
4V
5mV
0mV
-5mV
-10mV
Line Transient Response (VIN=4V, IOUT=10mA)
Line Transient Response (VIN=7V, IOUT=100µA) Line Transient Response (VIN=7V, IOUT=10µA)
27°C, VIN=4V, IL = 0.1mA, CIN = COUT = 1µF unless otherwise specified.
TYPICAL PERFORMANCE CHARACTERISTICS
9
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
PACKAGE: 5 PIN SC-70
D
E
E/2
e1
3
2
1
b
e
E1
E1/2
54
Pin1 Designator
to be within this
INDEX AREA
(D/2 x E1/2)
TOP VIEW
(L1)
D/2
FRONT VIEW
L
ø1
Gauge Plane
L2
c
R
R1
ø1
ø
Seating
Plane
SIDE VIEW
A
A1
A2
Seating
Plane
MIN NOM MAX MIN NOM MAX
A--1.10- - 0.043
A1 0.00 - 0.10 0.000 - 0.004
A2 0.70 0.90 1.00 0.028 0.036 0.039
c0.08-0.22 0.004 - 0.009
D
E
E1
L0.260.36 0.46 0.011 0.014 0.018
L1
L2
R0.10--0.004 - -
R1 0.10 - 0.25 0.004 - 0.010
Ø0˚4º8º0˚ 4º 8º
Ø1 4˚ - 12º 4˚ - 12º
b0.15-0.30 0.006 - 0.012
e
e1
1.25 BSC
5 Pin SC-70 JEDEC MO-203 Variation AA
SYMBOL
Dimensions in Millimeters:
Controlling Dimension
Dimensions in Inches
Conversion Factor:
1 Inch = 25.40 mm
0.026 BSC
0.051 BSC
0.017 REF
0.006 BSC
SIPEX Pkg Signoff Date/Rev: JL Oct3-05 / Rev A
2.00 BSC
0.65 BSC
0.42 REF
0.15 BSC
2.10 BSC
1.30 BSC
0.079 BSC
0.083 BSC
0.049 BSC
10
Date: 12/13/05 SP6213, SP6214 Micropower, SC-70, 100mA CMOS LDO Regulator © Copyright 2005 Sipex Corporation
ANALOG EXCELLENCE
Sipex Corporation reserves the right to make changes to any products described herein. Sipex does not assume any liability arising out of the
application or use of any product or circuit described herein; neither does it convey any license under its patent rights nor the rights of others.
Corporation
Sipex Corporation
Headquarters and
Sales Office
233 South Hillview Drive
Milpitas, CA 95035
TEL: (408) 934-7500
FAX: (408) 935-7600
ORDERING INFORMATION
Available in lead free packaging. To order add "-L" suffix to part number.
Example: SP6214EC5-3-3/TR = standard; SP6214EC5-L-3-3/TR = lead free.
Pack quantity is 3000 for SC70-5.
Lead Free packaging can be identified by a Bar “|” to the left of the standard Top Marking.
Part Number Top
Marking
Temperature
Range
Voltage
Option
Package
Type
SP6213EC5-1-8 W00 -40°C to +125°C 1.8V 5 Pin SC-70
SP6213EC5-1-8/TR W00 -40°C to +125°C 1.8V 5 Pin SC-70
SP6213EC5-2-5 F00 -40°C to +125°C 2.5V 5 Pin SC-70
SP6213EC5-2-5/TR F00 -40°C to +125°C 2.5V 5 Pin SC-70
SP6213EC5-2-7 E00 -40°C to +125°C 2.7V 5 Pin SC-70
SP6213EC5-2-7/TR E00 -40°C to +125°C 2.7V 5 Pin SC-70
SP6213EC5-2-85 D00 -40°C to +125°C 2.85V 5 Pin SC-70
SP6213EC5-2-85/TR D00 -40°C to +125°C 2.85V 5 Pin SC-70
SP6213EC5-3-0 A00 -40°C to +125°C 3.0V 5 Pin SC-70
SP6213EC5-3-0/TR A00 -40°C to +125°C 3.0V 5 Pin SC-70
SP6213EC5-3-3 C00 -40°C to +125°C 3.3V 5 Pin SC-70
SP6213EC5-3-3/TR C00 -40°C to +125°C 3.3V 5 Pin SC-70
SP6213EC5-5-0 B00 -40°C to +125°C 5.0V 5 Pin SC-70
SP6213EC5-5-0/TR B00 -40°C to +125°C 5.0V 5 Pin SC-70
SP6214EC5-1-8 D01 -40°C to +125°C 1.8V 5 Pin SC-70
SP6214EC5-1-8/TR D01 -40°C to +125°C 1.8V 5 Pin SC-70
SP6214EC5-2-5 J01 -40°C to +125°C 2.5V 5 Pin SC-70
SP6214EC5-2-5/TR J01 -40°C to +125°C 2.5V 5 Pin SC-70
SP6214EC5-2-7 K01 -40°C to +125°C 2.7V 5 Pin SC-70
SP6214EC5-2-7/TR K01 -40°C to +125°C 2.7V 5 Pin SC-70
SP6214EC5-2-85 L01 -40°C to +125°C 2.85V 5 Pin SC-70
SP6214EC5-2-85/TR L01 -40°C to +125°C 2.85V 5 Pin SC-70
SP6214EC5-3-0 M01 -40°C to +125°C 3.0V 5 Pin SC-70
SP6214EC5-3-0/TR M01 -40°C to +125°C 3.0V 5 Pin SC-70
SP6214EC5-3-3 H01 -40°C to +125°C 3.3V 5 Pin SC-70
SP6214EC5-3-3/TR H01 -40°C to +125°C 3.3V 5 Pin SC-70
SP6214EC5-5-0 N01 -40°C to +125°C 5.0V 5 Pin SC-70
SP6214EC5-5-0/TR N01 -40°C to +125°C 5.0V 5 Pin SC-70
