TCR2LF series, TCR2LE series
2014-11-06
1
TOSHIBA CMOS Linear Integrated Circuit Silicon Monolithic
TCR2LF series
TCR2LE series
Ultra low quiescent current
200 mA CMOS Low Drop-Out Regulator in ultra small package
The TCR2LF and TCR2LE series are CMOS general-purpose
single-output voltage regulators with an on/off control input, featuring
ultra low quiescent bias current and low dropout voltage.
These voltage regulators are available in fixed output voltages
between 0.8 V and 3.6 V and capable of driving up to 200 mA. They
feature overcurrent protection and Auto-discharge function.
The package is general SMV(SOT-25) (2.8 mm x 2.9 mm x 1.1
mm ) and ESV(SOT-553) (1.6 mm x 1.6 mm x 0.55 mm ), and has a
low dropout voltage of 270 mV ( 2.5 V output, IOUT = 150 mA).
As small ceramic input and output capacitors 0.1μF can be used
with the TCR2LF and TCR2LE series, these devices are ideal for
portable applications that require high-density board assembly such
as cellular phones.
Features
• Low quiescent bias current ( IB = 2 μA (max) at IOUT = 0 mA, Tj = -40 to 85°C)
• Low Drop-Out voltage
VIN-VOUT = 270 mV (typ.) at 2.5 V-output, IOUT = 150 mA
• Wide range output voltage line up ( VOUT = 0.8 to 3.6 V )
• High VOUT accuracy ±1.0% ( 1.8V ≤ VOUT )
• Overcurrent protection
• Auto-discharge
• Pull down connection between CONTROL and GND
• Ceramic capacitors can be used ( CIN = 0.1 μF, COUT =0.1 μF )
• General package SMV(SOT-25) (2.8 mm x 2.9 mm x 1.1 mm ) and ESV(SOT-553) (1.6 mm x 1.6 mm x 0.55 mm )
Weight :
SMV (
SOT-25)(SC-74A) : 16.0 mg ( typ.)
ESV (SOT-553) : 3.0 mg ( typ.)
SMV
ESV
TCR2LF series, TCR2LE series
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Absolute Maximum Ratings (Ta = 25°C)
Characteristics Symbol Rating Unit
Input voltage VIN 6.0 V
Control voltage VCT -0.3 to 6.0 V
Output voltage VOUT -0.3 to VIN + 0.3 V
Output current IOUT 200 mA
Power dissipation PD
SMV
200 (Note1)
mW
580 (Note 2)
ESV
150 (Note 1)
320 (Note 3)
Operation temperature range Topr −40 to 85 °C
Junction temperature Tj 150 °C
Storage temperature range Tstg −55 to 150 °C
Note: Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the
significant change in temperature, etc.) may cause this product to decrease in the reliability significantly
even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute
maximum ratings and the operating ranges.
Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook
(“Handling Precautions”/“Derating Concept and Methods”) and individual reliability data (i.e. reliability test
report and estimated failure rate, etc).
Note 1: Unit Rating
Note 2: Rating at mounting on a board
(FR4 board: 25.4 mm × 25.4 mm × 1.6 mm)
Note 3: Rating at mounting on a board
(FR4 board dimension: 30 mm × 30 mm × 0.8 mm)
Pin Assignment (top view)
SMV(SOT-25)(SC-74A) ESV(SOT-553)
VOUT
CONTROL
GND
NC
V
IN
1
3
2
4
5
VOUT
CONTROL GND
NC
VIN
1
3
2
4
5
TCR2LF series, TCR2LE series
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List of Products Number, Output voltage and Marking
TCR2LF and TCR2LE series
Product No. VOUT(V)
(typ.) Marking
Product No. VOUT(V)
(typ.) Marking
SMV(SOT-25) ESV(SOT-553) SMV(SOT-25) ESV(SOT-553)
TCR2LF08 TCR2LE08 0.8 0L8 TCR2LF19 TCR2LE19 1.9 1L9
TCR2LF085 TCR2LE085 0.85 0LD TCR2LF20 TCR2LE20 2.0 2L0
TCR2LF09 TCR2LE09 0.9 0L9 TCR2LF21 TCR2LE21 2.1 2L1
TCR2LF095 TCR2LE095 0.95 0LE TCR2LF25 TCR2LE25 2.5 2L5
TCR2LF10 TCR2LE10 1.0 1L0 TCR2LF27 TCR2LE27 2.7 2L7
TCR2LF105 TCR2LE105 1.05 1LA TCR2LF28 TCR2LE28 2.8 2L8
TCR2LF11 TCR2LE11 1.1 1L1 TCR2LF285 TCR2LE285 2.85 2LD
TCR2LF115 TCR2LE115 1.15 1LB TCR2LF30 TCR2LE30 3.0 3L0
TCR2LF12 TCR2LE12 1.2 1L2 TCR2LF31 TCR2LE31 3.1 3L1
TCR2LF13 TCR2LE13 1.3 1L3 TCR2LF32 TCR2LE32 3.2 3L2
TCR2LF15 TCR2LE15 1.5 1L5 TCR2LF33 TCR2LE33 3.3 3L3
TCR2LF18 TCR2LE18 1.8 1L8 TCR2LF36 TCR2LE36 3.6 3L6
* Please contact local Toshiba representative if you are interested in product that output voltage is not in the list.
Marking (top view)
Example: T
CR2LF33 (3.3 V output) Example: TCR2LE33 (3.3 V output)
3 L 3
3 L 3
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Electrical Characteristics
(Unless otherwise specified,
VIN = VOUT+1 V (VOUT>1.5V), VIN=2.5V (VOUT≤1.5V), IOUT = 50 mA, CIN = 0.1 μF, C OUT = 0.1 μF)
Characteristics Symbol Test Condition
Tj = 25°C Tj = -40 to 85°C
Unit
Min Typ. Max Min Max
Output voltage accuracy VOUT IOUT = 50 mA
(Note 4)
VOUT <1.8 V -18 ― +18 ― ― mV
1.8V ≤ VOUT -1.0 ― +1.0 ― ― %
Input voltage VIN IOUT = 1 mA 1.5 ― 5.5 1.5 5.5 V
Line regulation Reg・line VOUT + 0.5 V ≤ VIN ≤ 5.5 V,
IOUT = 1 mA ― 1 15 ― ― mV
Load regulation Reg・load 1 mA ≤ IOUT ≤ 150 mA ― 15 30 ― ― mV
Quiescent current IB IOUT = 0 mA (Note 5) ― 1.0 ― ― 2.0 μA
Stand-by current I
B (OFF)
V
CT
= 0 V ― 0.1 ― ― 1.0 μA
Control pull down current ICT ― ― 0.1 ― ― ― μA
Drop-out voltage VIN-VOUT IOUT = 150 mA
VOUT = 1.8V ― 370 ― ― 620 mV
VOUT = 3.0V ― 220 ― ― 300 mV
Temperature coefficient TCVO −40°C ≤ Topr
≤
85°C ― 75 ― ― ― ppm/°C
Control voltage (ON) VCT (ON) ― 1.0 ― 5.5 1.0 5.5 V
Control voltage (OFF) VCT (OFF) ― 0 ― 0.4 0 0.4 V
Discharge on resistance RSD ― ― 20 ― ― ― Ω
Note 4: Stable state with fixed IOUT condition
Note 5: Except Control pull down current
Drop-out voltage
(IOUT = 150 mA, CIN = 0.1 μF, C OUT = 0.1 μF, Tj = 25°C)
Output voltages Symbol Min Typ. Max(Note 6) Unit
0.8 V
<
=
VOUT < 0.9 V
VIN-VOUT
―
1020 1580
mV
0.9 V
<
=
VOUT < 1.0 V ―
940 1480
1.0 V
<
=
VOUT < 1.1 V
―
860 1400
1.1 V
<
=
VOUT < 1.2 V
―
780 1300
1.2 V
<
=
VOUT < 1.3 V ―
700 1250
1.3 V
<
=
VOUT < 1.6 V ― 620 1130
1.6 V
<
=
VOUT < 1.8 V
―
470 860
1.8 V
<
=
VOUT < 2.0 V
―
370 620
2.0 V
<
=
VOUT < 2.5 V ―
320 560
2.5 V
<
=
VOUT < 3.0 V ―
270 380
3.0 V
<
=
VOUT
<
=
3.6 V ―
220 300
Note 6: Tj = -40 to 85°C
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Application Note
1. Recommended Application Circuit
The figure above shows the recommended configuration for using a Low-Dropout regulator. Insert a capacitor at
VOUT and VIN pins for stable input/output operation. (Ceramic capacitors can be used).
2. Power Dissipation
Both unit and board-mounted power dissipation ratings for TCR2LF series and TCR2LE series are available in the
Absolute Maximum Ratings table.
Power dissipation is measured on the board shown below.
Testing Board of Thermal Resistance
CONTROL pin
connection Operation
HIGH ON
LOW OFF
OPEN OFF
SMV ESV
*Board
material: FR4
Board dimension: 30 mm × 30 mm × 0.8 mm
Copper area: 20 mm2
*Board material:
FR4 board
Board dimension: 25.4 mm × 25.4 mm × 1.6 mm
Copper area: 645 mm
2
VOUT
GND
VIN
0.1 μF
0.1 μF
CONTROL
NC
●SMV
●ESV
VOUT
GND
V
IN
0.1 μF
0.1 μF
CONTROL
NC
PD – Ta (SMV)
Power dissipation PD (mW)
−40 0
0
40 120
80
200
400
600
800
① Board dimension 25.4 mm x 25.4 mm, x
1.6 mm Copper area 645 mm2,
mounted on FR4 Board
②
Unit Rating
②
①
PD – Ta (ESV)
Power dissipation PD (mW)
−40
0
0 40 120 80
100
200
300
400
①
②
① Board dimension 30 mm x 30 mm,
x 0.8 mm Copper area 20 mm2,
mounted on Glass Epoxy Board
② Unit Rating
Ambient Temperature Ta (°C) Ambient Temperature Ta (°C)
TCR2LF series, TCR2LE series
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Attention in Use
● Output Capacitors
Ceramic capacitors can be used for these devices. However, because of the type of the capacitors, there might be
unexpected thermal features. Please consider application condition for selecting capacitors. And Toshiba
recommend the ESR of ceramic capacitor is under 10 Ω.
● Mounting
The long distance between IC and output capacitor might affect phase assurance by impedance in wire and inductor.
For stable power supply, output capacitor need to mount near IC as much as possible. Also VIN and GND pattern
need to be large and make the wire impedance small as possible.
● Permissible Loss
Please have enough design patterns for expected maximum permissible loss. And under consideration of
surrounding temperature, input voltage, and output current etc, we recommend proper dissipation ratings for
maximum permissible loss; in general maximum dissipation rating is 70 to 80 percent.
● Overcurrent Protection Circuit
Overcurrent protection circuit is designed in these products, but this does not assure for the suppression of uprising
device operation. If output pins and GND pins are shorted out, these products might be break down.
In use of these products, please read through and understand dissipation idea for absolute maximum ratings from
the above mention or our ‘Semiconductor Reliability Handbook’. Then use these products under absolute maximum
ratings in any condition. Furthermore, Toshiba recommend inserting failsafe system into the design.
TCR2LF series, TCR2LE series
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Representative Typical Characteristics
1) Output Voltage vs. Input Voltage
2) Quiescent Current vs. Input Voltage
CIN = 0.1 μF, COUT = 0.1 μ
F
Output Voltage VOUT (V)
Input Voltage V
IN
(V)
VOUT=0.8V
Output Voltage VOUT (V)
CIN = 0.1 μF, COUT = 0.1 μ
F
Input Voltage V
IN
(V)
VOUT=3.6V
Input Voltage V
IN
(V)
CIN = 0.1 μF, COUT = 0.1 μ
F
Output Voltage VOUT (V)
VOUT=1.8V
Quiescent Current I
B
(μA)
Input Voltage V
IN
(V)
VOUT=1.8V
Input Voltage V
IN
(V)
VOUT=0.8V
Quiescent Current I
B
(μA)
CIN = 0.1 μF, COUT = 0.1 μF
IOUT = 0 mA
CIN = 0.1 μF, COUT = 0.1 μF
IOUT = 0 mA
IOUT = 150mA
IOUT = 100mA
IOUT = 1mA
IOUT = 150mA
IOUT = 100mA
IOUT = 1mA
IOUT = 150mA
IOUT = 100mA
IOUT = 1mA
TCR2LF series, TCR2LE series
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3) Output Voltage vs. Output Current
CIN = 0.1 μF, COUT = 0.1 μF
IOUT = 0 mA
Quiescent Current IB (
μ
A)
Input Voltage V
IN
(V)
VOUT=3.6V
VOUT=0.8V
Output Current I
OUT
(mA)
Output Voltage VOUT (V)
VOUT=3.6V
VOUT=1.8V
Output Current I
OUT
(mA)
Output Voltage VOUT (V)
Output Voltage VOUT (V)
VIN = 2.5 V,
CIN = 0.1 μF, C OUT = 0.1 μF
VIN = 2.8 V,
CIN = 0.1 μF, C OUT = 0.1 μF
Output Current I
OUT
(mA)
VIN = 4.6 V,
CIN = 0.1 μF, C OUT = 0.1 μF
TCR2LF series, TCR2LE series
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4) Output Voltage vs. Ambient Temperature
5) Dropout Voltage vs. Output Current
VOUT=0.8V
Output Voltage VOUT (V)
VOUT=3.6V
VOUT=1.8V
Ambient Temperature Ta (°C
)
Output Voltage VOUT (V)
Output Voltage VOUT (V)
VIN = 2.5 V,
CIN = 0.1 μF, C OUT = 0.1 μF
IOUT = 50mA
VIN = 2.8 V,
CIN = 0.1 μF, C OUT = 0.1 μF
IOUT = 50mA
VIN = 4.6 V,
CIN = 0.1 μF, C OUT = 0.1 μF
IOUT = 50mA
VOUT=0.8V
VOUT=1.8V
Dropout voltage VIN - VOUT (mV)
Output Current I
OUT
(mA)
CIN = 0.1 μF, COUT = 0.1 μF CIN = 0.1 μF, COUT = 0.1 μF
Output Current I
OUT
(mA)
Dropout voltage VIN - VOUT (mV)
Ambient Temperature Ta (°C) Ambient Temperature Ta (°C)
TCR2LF series, TCR2LE series
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6) Quiescent Current vs. Ambient Temperature
CIN = 0.1 μF, COUT = 0.1 μF
Output Current I
OUT
(mA)
VOUT=3.6V
VOUT=0.8V
Ambient Temperature Ta (°C
)
VOUT=3.6V
VOUT=1.8V
Ambient Temperature Ta (°C
)
VIN = 2.5 V,
CIN = 0.1 μF, C OUT = 0.1 μF
IOUT = 0mA
VIN = 2.8 V,
CIN = 0.1 μF, C OUT = 0.1 μF
IOUT = 0mA
Ambient Temperature Ta (°C
)
VIN = 4.6 V,
CIN = 0.1 μF, C OUT = 0.1 μF
IOUT = 0mA
Dropout voltage VIN - VOUT (mV)
Quiescent Current IB (
μ
A)
Quiescent Current IB (
μ
A)
Quiescent Current IB (
μ
A)
TCR2LF series, TCR2LE series
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7) Ripple Rejection Ratio vs. Frequency
8) Output Voltage vs. Output Current
VOUT=0.8V
Ripple Rejection Ratio (dB)
VOUT=3.6V
VOUT=1.8V
Frequency f (Hz)
VIN = 2.5 V,
CIN = none, COUT = 0.1 μF
IOUT = 10mA
VIN = 2.8 V,
CIN = none, COUT = 0.1 μF
IOUT = 10mA
VIN = 4.6 V,
CIN = none, COUT = 0.1 μF
IOUT = 10mA
VOUT=0.8V
VOUT=1.8V
Output Voltage VOUT (V)
Output Voltage VOUT (V)
Frequency f (Hz) Frequency f (Hz)
Ripple Rejection Ratio (dB)
Ripple Rejection Ratio (dB)
Output Current I
OUT
(mA)
Output Current I
OUT
(mA)
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9) Control Transient vs. Response
Output Voltage VOUT (V)
Output Current I
OUT
(mA)
VOUT=3.6V
Control voltage
VCT (V)
Output voltage
VOUT (V)
IOUT = 1mA
2.0
1.0
0
1.0
0
2.0
Time t (100 μs/div)
IOUT = 150mA
VOUT=0.8V
VOUT=1.8V
Control voltage
VCT (V)
Output voltage
VOUT (V)
V
IN
= 2.5 V,
CIN
=
0.1
μ
F, COUT
=
0.1
μ
F
IOUT = 1mA
1.0
0.5
0
1.0
0
2.0
Time t (100 μs/div)
IOUT
= 150
mA
V
IN
= 2.8 V,
CIN = 0.1 μF, COUT = 0.1 μF
VOUT=3.6V
V
IN
= 4.6 V,
CIN = 0.1 μF, COUT = 0.1 μF
IOUT = 1mA
IOUT = 150mA
Time t (100 μs/div)
Output voltage
VOUT (V)
Control voltage
VCT (V)
0
2.0
4.0
0
1.0
2.0
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10) Load Transient Response
V
IN
= 2.5 V,
CIN
=
0.1
μ
F, COUT
=
0.1
μ
F
V
IN
= 2.8 V,
CIN
=
0.1
μ
F, COUT
=
0.1
μ
F
50
100
150
0.30
100
150
Output current
IOUT (mA)
Output voltage
VOUT (V)
Output current
IOUT (mA)
Output voltage
VOUT (V)
V
OUT
=0.8V
(IOUT = 50mA
⇔
100mA)
V
OUT
=1.8V
(IOUT = 50mA
⇔
100mA)
0.80
1.30
Time t (100 μs/div) Time t (100 μs/div)
50
V
IN
= 4.6 V,
CIN = 0.1 μF, C OUT = 0.1 μF
V
IN
= 2.8 V,
CIN
=
0.1
μ
F, COUT
=
0.1
μ
F
50
100
150
3.10
Output current
IOUT (mA)
Output voltage
VOUT (V)
V
OUT
=3.6V
(IOUT = 50mA
⇔
100mA)
3.60
4.10
Time t (100 μs/div)
1.30
1.80
2.30
Output current
IOUT (mA)
0
10
20
V
OUT
=0.8V
(IOUT = 1mA
⇔
10mA)
0.30
0.80
1.30
Time t (100 μs/div)
Output voltage
VOUT (V)
V
OUT
=1.8V
(IOUT = 1mA
⇔
10mA)
1.30
1.80
2.30
Output voltage
VOUT (V)
Output current
IOUT (mA)
10
0
20
Time t (100 μs/div) Time t (100 μs/div)
V
OUT
=3.6V
(IOUT = 1mA
⇔
10mA)
Output voltage
VOUT (V)
3.10
3.60
4.10
20
10
0
Output current
IOUT (mA)
V
IN
= 2.5 V,
CIN = 0.1 μF, C OUT = 0.1 μF
V
IN
= 2.8 V,
CIN = 0.1 μF, C OUT = 0.1 μF
V
IN
= 4.6 V,
CIN = 0.1 μF, C OUT = 0.1 μF
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Package Dimensions
SMV (SOT-25)(SC-74A) Unit: mm
Weight : 16.0 mg (typ.)
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Package Dimensions
ESV (SOT-553) Unit: mm
Weight: 3.0 mg (typ.)
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