TK11355BUIB [TOKO]
VOLTAGE REGULATOR WITH ON/OFF SWITCH; 带ON / OFF开关稳压器型号: | TK11355BUIB |
厂家: | TOKO, INC |
描述: | VOLTAGE REGULATOR WITH ON/OFF SWITCH |
文件: | 总16页 (文件大小:125K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
TK113xxBM/U
VOLTAGE REGULATOR WITH ON/OFF SWITCH
APPLICATIONS
FEATURES
■ Battery Powered Systems
■ Cellular Telephones
■ High Voltage Precision at ± 2.0%
■ Active Low On/Off Control
■ Very Low Dropout Voltage 80 mV at 30 mA
■ Very Low Noise
■ Pagers
■ Personal Communications Equipment
■ Portable Instrumentation
■ Portable Consumer Equipment
■ Radio Control Systems
■ Toys
■ Very Small SOT23L or SOT89 Surface Mount
Packages
■ Internal Thermal Shutdown
■ Short Circuit Protection
■ Low Voltage Systems
DESCRIPTION
The TK113xxB is available in either 6-pin SOT23L or 5-pin
SOT89 surface mount packages.
TheTK113xxBisalowdropoutlinearregulatorwithabuilt-
in electronic switch. The device is in the “on” state when
thecontrolpinispulledtoalowlevel. Anexternalcapacitor
can be connected to the noise bypass pin to lower the
output noise level to 30 µVrms.
TK113xxB
V
CONTROL
GND
IN
2P
An internal PNP pass transistor is used to achieve a low
dropout voltage of 80 mV (typ.) at 30 mA load current. The
TK113xxBhasaverylowquiescentcurrentof170µAatno
load and 1 mA with a 30 mA load. The standby current is
typically 100 nA. The internal thermal shut down circuitry
limits the junction temperature to below 150 °C. The load
current is internally monitored and the device will shut
down in the presence of a short circuit or overcurrent
condition at the output.
GND
NOISE BYPASS
V
OUT
SOT23L
NOISE BYPASS
V
OUT
GND
GND
CONTROL
V
IN
SOT89
ORDERING INFORMATION
TK113
B
BLOCK DIAGRAM
Tape/Reel Code
Temp. Code
Voltage Code
Package Code
V
V
OUT
IN
THERMAL
PROTECTION
PACKAGE CODE:
M: SOT23L
U: SOT89
VOLTAGE CODE
TAPE/REEL CODE
L: Tape Left (SOT23L)
B: Tape Left (SOT89)
20 = 2.0 V
21 = 2.1 V
22 = 2.2 V
23 = 2.3 V
24 = 2.4 V
25 = 2.5 V
26 = 2.6 V
27 = 2.7 V
28 = 2.8 V
29 = 2.9 V
30 = 3.0 V
31 = 3.1 V
32 = 3.2 V
33 = 3.3 V
34 = 3.4 V
35 = 3.5 V
36 = 3.6 V
37 = 3.7 V
38 = 3.8 V
39 = 3.9 V
40 = 4.0 V
41 = 4.1 V
42 = 4.2 V
43 = 4.3 V
44 = 4.4 V
45 = 4.5 V
46 = 4.6 V
47 = 4.7 V
48 = 4.8 V
49 = 4.9 V
50 = 5.0 V
55 = 5.5 V
60 = 6.0 V
80 = 8.0 V
CONTROL
TEMP. CODE:
C: -30 to +80 °C
I: -40 to +85°C
BANDGAP
REFERENCE
GND
NOISE
BYPASS
April 2000 TOKO, Inc.
Page 1
TK113xxBM/U
ABSOLUTE MAXIMUM RATINGS (VOUT ≥ 2.0 V)
Supply Voltage......................................................... 16 V
Output Current .................................................... 260 mA
Power Dissipation SOT-23L (Note 1) ............... 600 mW
Power Dissipation SOT-23L (Note 1) ............... 900 mW
Reverse Bias............................................................ 10 V
Storage Temperature Range ................... -55 to +150 °C
Operating Temperature Range.................. -30 to +80 °C
Voltage Range ............................................ 1.8 to 14.5 V
Operating Junction Temperature ..........................150 °C
TK113xxBM/UC ELECTRICAL CHARACTERISTICS (VOUT ≥ 2.0 V)
Test conditions: T = 25 °C, unless otherwise specified.
A
SYMBOL
IQ
ISTBY
VOUT
PARAMETER
Quiescent Current
Standby Current
Output Voltage
TEST CONDITIONS
IOUT = 0 mA, Excluding ICONT
VIN = 8 V, Output OFF
IOUT = 30 mA
MIN
TYP
MAX
250
0.1
UNITS
µA
170
µA
See Table 1
V
VOUT ≤ 5.5 V, (Note 2)
VOUT ≥ 5.6 V, (Note 2)
3.0
15
20
40
mV
mV
mV
mV
mV
V
Line Reg Line Regulation
I
I
I
OUT = 1 to 60 mA, (Note 2)
OUT = 1 to 100 mA, (Note 2)
OUT = 1 to 150 mA, (Note 2)
6
30
Load Reg Load Regulation
18
60
23
90
IOUT = 60 mA, (Note 2)
OUT = 150 mA, (Note 2)
Continuous Output Current (Note 2)
0.12
0.26
0.20
0.39
150
180
VDROP
Dropout Voltage
I
V
IOUT
mA
mA
IOUT(PULSE)
Pulse Output Current
5 ms pulse, 12.5 % duty cycle
f = 400 Hz, CL = 10 µF, CN = 0.1 µF,
VIN = VOUT + 1.5 V, IOUT = 30 mA,
VRIPPLE = 100 mVrms, (Note 3)
RR
VNO
Ripple Rejection
60
30
dB
10 Hz ≤ f ≤ 80 kHz, CL = 10 µF,
CN = 0.1 µF, VCN = VOUT + 1.5 V,
IOUT = 60 mA, (Notes 3,4)
Output Noise Voltage
µVrms
Noise Bypass Terminal
Voltage
Vref
1.25
40
V
∆VOUT /∆T
Temperature Coefficient
I
OUT = 10 mA
ppm/° C
CONTROL TERMINAL SPECIFICATIONS
ICONT
Control Current
VCONT = 1.8 V, Output ON
Output ON
12
35
µA
V
VCC-1.8
VCONT(ON)
Control Voltage ON
VCC-0.6
VCONT(OFF) Control Voltage OFF
Output OFF
V
Note 1: When mounted as recommended. Derate at 4.8 mW/°C for SOT-23L and 6.4 mW/°C for SOT-89 packages for operation above 25°C.
Note 2: Refer to “Definition of Terms.”
Note 3: Ripple rejection and noise voltage are affected by the value and characteristics of the capacitor used.
Note 4: Output noise voltage can be reduced by connecting a capacitor to a noise pass terminal.
Gen. Note: Parameters with min. or max. values are 100% tested at TA = 25 °C.
Page 2
April 2000 TOKO, Inc.
TK113xxBM/U
ABSOLUTE MAXIMUM RATINGS TK113xxBI (VOUT ≥ 2.5 V)
Supply Voltage ......................................................... 16 V
Power Dissipation SOT-23L (Note1) .................. 600 mW
Power Dissipation SOT-89 (Note1) .................... 900 mW
Reverse Bias............................................................ 10 V
Storage Temperature Range ................... -55 to +150 °C
Operating Temperature Range ...................-40 to +85 °C
Operating Voltage Range............................ 1.8 to 14.5 V
Junction Temperature ........................................... 150 °C
TK113xxBM/UI ELECTRICAL CHARACTERISTICS (VOUT ≥ 2.5 V)
Test conditions: T = -40 to 85 °C, unless otherwise specified.
A
SYMBOL
IQ
ISTBY
VOUT
PARAMETER
Quiescent Current
Standby Current
Output Voltage
TEST CONDITIONS
IOUT = 0 mA, Excluding ICONT
VIN = 8 V, Output OFF
IOUT = 30 mA
MIN
TYP
MAX
300
0.2
UNITS
µA
170
µA
See Table 2
V
VOUT ≤ 5.5 V,(Note 2)
3.0
15
25
40
mV
mV
mV
mV
mV
V
Line Reg Line Regulation
VOUT
5.6 V,(Note 2)
I
I
I
OUT = 1 to 60 mA, (Note 2)
OUT = 1 to 100 mA, (Note 2)
OUT = 1 to 150 mA, (Note 2)
6
40
Load Reg Load Regulation
18
80
23
110
0.23
0.40
150
180
IOUT = 60 mA, (Note 2)
OUT = 150 mA, (Note 2)
Continuous Output Current (Note 2)
0.12
0.26
VDROP
Dropout Voltage
I
V
IOUT
mA
mA
IOUT(PULSE)
Pulse Output Current
5 ms pulse, 12.5 % duty cycle
f = 400 Hz, CL = 10 µF, CN = 0.1 µF,
VIN = VOUT + 1.5 V, IOUT = 30 mA,
VRIPPLE = 100 mVrms, (Note 3)
RR
VNO
Ripple Rejection
60
30
dB
10 Hz ≤ f ≤ 80 kHz, CL = 10 µF,
CN = 0.1 µF, VCN = VOUT + 1.5 V,
IOUT = 60 mA, (Notes 3,4)
Output Noise Voltage
µVrms
Noise Bypass Terminal
Voltage
Vref
1.25
40
V
∆VOUT /∆T
Temperature Coefficient
I
OUT = 10 mA
ppm/° C
CONTROL TERMINAL SPECIFICATIONS
ICONT
Control Current
VCONT = 1.8 V, Output ON
Output ON
12
40
µA
V
VCC-2.0
VCONT(ON)
Control Voltage ON
VCC-0.5
VCONT(OFF) Control Voltage OFF
Output OFF
V
Note 1: When mounted as recommended. Derate at 4.8 mw/°C for SOT-23L and 6.4 mw/°C for SOT-89 packages for operation above 25 °C.
Note 2: Refer to “Definition of Terms.”
Note 3: Ripple rejection and noise voltage are affected by the value and characteristics of the capacitor used.
Note 4: Output noise voltage can be reduced by connecting a capacitor to a noise pass terminal.
Gen Note: Parameters with min. or max. values are 100% tested at TA = 25 °C.
Gen Note: For Line Regulation, typ. and max. is changed to VOUT > 5.6 V.
April 2000 TOKO, Inc.
Page 3
TK113xxBM/U
TK113xxBM/UC ELECTRICAL CHARACTERISTICS TABLE 1
Test conditions: T = 25 °C, I
= 30 mA, unless otherwise specified.
A
OUT
Output
Voltage
Voltage
Code
VOUT(MIN)
VOUT(MAX)
Test
Voltage
Output
Voltage
Voltage
Code
VOUT(MIN)
VOUT(MAX)
Test
Voltage
2.0 V
2.1 V
2.2 V
2.3 V
2.4 V
2.5 V
2.6 V
2.7 V
2.8 V
2.9 V
3.0 V
3.1 V
3.2 V
3.3 V
3.4 V
3.5 V
3.6 V
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
1.940 V
2.040 V
2.140 V
2.240 V
2.340 V
2.440 V
2.540 V
2.640 V
2.740 V
2.840 V
2.940 V
3.040 V
3.140 V
3.240 V
3.335 V
3.435 V
3.535 V
2.060 V
2.160 V
2.260 V
2.360 V
2.460 V
2.560 V
2.660 V
2.760 V
2.860 V
2.960 V
3.060 V
3.160 V
3.260 V
3.360 V
3.465 V
3.565 V
3.665 V
3.0 V
3.1 V
3.2 V
3.3 V
3.4 V
3.5 V
3.6 V
3.7 V
3.8 V
3.9 V
4.0 V
4.1 V
4.2 V
4.3 V
4.4 V
4.5 V
4.6 V
3.7 V
3.8 V
3.9 V
4.0 V
4.1 V
4.2 V
4.3 V
4.4 V
4.5 V
4.6 V
4.7 V
4.8 V
4.9 V
5.0 V
5.5 V
6.0 V
8.0 V
37
38
39
40
41
42
43
44
45
46
47
48
49
50
55
60
80
3.630 V
3.725 V
3.825 V
3.920 V
4.020 V
4.120 V
4.215 V
4.315 V
4.410 V
4.510 V
4.605 V
4.705 V
4.800 V
4.900 V
5.390 V
5.880 V
7.840 V
3.770 V
3.875 V
3.975 V
4.080 V
4.180 V
4.280 V
4.385 V
4.485 V
4.590 V
4.690 V
4.795 V
4.895 V
5.000 V
5.100 V
5.610 V
6.120 V
8.160 V
4.7 V
4.8 V
4.9 V
5.0 V
5.1 V
5.2 V
5.3 V
5.4 V
5.5 V
5.6 V
5.7 V
5.8 V
5.9 V
6.0 V
6.5 V
7.0 V
9.0 V
Page 4
April 2000 TOKO, Inc.
TK113xxBM/U
TK113xxBM/UI ELECTRICAL CHARACTERISTICS TABLE 2
Test Conditions: VIN = VOUT(TYP) + 1 V, IOUT = 30 mA, unless otherwise specified.
Room Temp. Range (TA = 25 °C)
Full Temp. Range (TA = -40 to +85 °C)
Output
Voltage
Voltage
Code
VOUT(MIN)
VOUT(MAX)
VOUT(MIN)
VOUT(MAX)
2.5 V
2.6 V
2.7 V
2.8 V
2.9 V
3.0 V
3.1 V
3.2 V
3.3 V
3.4 V
3.5 V
3.6 V
3.7 V
3.8 V
3.9 V
4.0 V
4.1 V
4.2 V
4.3 V
4.4 V
4.5 V
4.6 V
4.7 V
4.8 V
4.9 V
5.0 V
5.5 V
6.0 V
8.0 V
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
55
60
80
2.440 V
2.540 V
2.640 V
2.750 V
2.840 V
2.940 V
3.040 V
3.140 V
3.240 V
3.335 V
3.435 V
3.535 V
3.630 V
3.725 V
3.825 V
3.920 V
4.020 V
4.120 V
4.215 V
4.315 V
4.410 V
4.510 V
4.605 V
4.705 V
4.800 V
4.900 V
5.390 V
5.880 V
7.840 V
2.560 V
2.660 V
2.760 V
2.860 V
2.960 V
3.060 V
3.160 V
3.260 V
3.360 V
3.465 V
3.565 V
3.665 V
3.770 V
3.875 V
3.975 V
4.080 V
4.180 V
4.280 V
4.385 V
4.485 V
4.590 V
4.690 V
4.795 V
4.895 V
5.000 V
5.100 V
5.610 V
6.120 V
8.160 V
2.400 V
2.500 V
2.600 V
2.700 V
2.800 V
2.900 V
3.000 V
3.095 V
3.190 V
3.290 V
3.385 V
3.485 V
3.580 V
3.675 V
3.770 V
3.870 V
3.965 V
4.060 V
4.160 V
4.255 V
4.350 V
4.450 V
4.545 V
4.640 V
4.740 V
4.835 V
5.320 V
5.805 V
7.745 V
2.600 V
2.700 V
2.800 V
2.900 V
3.000 V
3.100 V
3.200 V
3.305 V
3.410 V
3.510 V
3.615 V
3.720 V
3.820 V
3.925 V
4.030 V
4.130 V
4.235 V
4.335 V
4.440 V
4.545 V
4.645 V
4.750 V
4.850 V
4.955 V
5.060 V
5.165 V
5.680 V
6.195 V
8.265 V
April 2000 TOKO, Inc.
Page 5
TK113xxBM/U
TEST CIRCUITS
SOT23L
SOT89
I
IN
I
IN
V
IN
V
OUT
I
OUT
V
OUT
I
V
V
IN
OUT
OUT
+
V
+
+
IN
+
+
V
OUT
1.0 µF
2.2 µF
2.2 µF
V
IN
1 µF
NOISE
NOISE
BYPASS
CONT
BYPASS
CONT
TRANSIENT RESPONSE
C
N
V
C
N
0.1 µF
CONT
+
+
0.1 µF
I
CONT
I
CONT
V
CONT 1
V
IN
113XXB
V
OUT
R
S
C
N
CONT
Note: Connect pin 5 to
ground for heat sink
0.1 µF
C
L = 10 µF to 0.22 µF
1 µF
TYPICAL PERFORMANCE CHARACTERISTICS
TA = 25 °C, unless otherwise specified.
OUTPUT VOLTAGE RESPONSE
(OFF→ON)
LOAD REGULATION
SHORT CIRCUIT CURRENT
C
= 2.2 µF
L
5
4
3
2
V
OUT(TYP)
C
N
= 0.01 µF
C
= 0.1 µF
N
1
0
I
= 30 mA
LOAD
400
TIME (µs)
150
800
0
200
600
0
50
(mA)
100
0
300
I
I
(mA)
OUT
OUT
OUTPUT VOLTAGE VS. INPUT
VOLTAGE
DROPOUT VOLTAGE VS. OUTPUT
CURRENT
LINE REGULATION
OUT(TYP)
V
OUT(TYP)
V
0
-100
-200
-300
-400
I
= 0 mA
OUT
I
= 30 mA
OUT
I
= 50 mA
OUT
I
= 90 mA
OUT
0
V
= V
10
(V)
0
100
(mA)
200
0
20
IN
OUT
(V) (50 mV/DIV)
V
V
I
OUT
IN
IN
Page 6
April 2000 TOKO, Inc.
TK113xxBM/U
TYPICAL PERFORMANCE CHARACTERISTICS (CONT.)
TA = 25 °C, unless otherwise specified.
QUIESCENT CURRENT (OFF
MODE) VS. INPUT VOLTAGE
REVERSE BIAS CURRENT
GROUND CURRENT VS. OUTPUT
CURRENT
(V = 0 V)
IN
100
50
0
10
8
500
400
6
300
200
4
100
0
2
0
0
10
20
0
100
(mA)
200
0
10
20
V
(V)
I
V
(V)
REV
IN
OUT
QUIESCENT CURRENT (ON
MODE) VS. INPUT VOLTAGE
QUIESCENT CURRENT
DROPOUT VOLTAGE
I
= 0 mA
OUT
2
1
0
500
400
300
200
100
0
2
I
= 60 mA
OUT
I
= 150 mA
OUT
V
=
OUT
3 V
5 V
1
0
I
= 60 mA
OUT
2 V
4 V
I
= 30 mA
I
= 30 mA
OUT
OUT
-50
0
50
100
-50
0
50
100
0
5
10
T
A
(°C)
T
A
(°C)
V
(V )
IN
MAXIMUM OUTPUT CURRENT
= 2.7 V
CONTROL CURRENT
V
(V
, ON POINT)
CONT OUT
R
= 0 Ω
V
CONT
2.0
OUT
= 2 to 2.6 V
50
280
270
V
OUT
40
30
20
V
= 5 V
CONT
1.0
260
250
240
V
= 1.8 V
CONT
50
10
0
0
-50
0
50
100
-50
0
50
100
-50
0
100
T
(°C)
T (°C)
A
T
(°C)
A
A
April 2000 TOKO, Inc.
Page 7
TK113xxBM/U
TYPICAL PERFORMANCE CHARACTERISTICS (CONT.)
TA = 25 °C, unless otherwise specified.
LINE VOLTAGE STEP RESPONSE
OUTPUT VOLTAGE VARIATION
LOAD CURRENT STEP RESPONSE
V
+2 V
OUT
100 mA
V
+1 V
OUT
50 mA
10
0
V
= 2 V
OUT
4 V
C
= 0.001 µF, C = .22 µF
L
N
C
= 0.01 F, C = 2.2 µF
L
N
3 V
-10
-20
-30
5 V
C
= 0.01 µF, C = 2.2 µF
L
N
C
= 0.1 F, C = 10 µF
L
N
-50
0
50
100
TIME (50 µs/DIV)
TIME (50 µs/DIV)
T
(°C)
A
NOISE LEVEL VS.
C
RIPPLE REJECTION
= 30 mA
N
NOISE SPECTRUM
0
250
200
150
0
-20
-40
V
= 3 V
60 mA
OUT
I
OUT
I
OUT =
C
= 2.2 µF
L
C
= 0.01 µF
C
= 3.3µF
= 10 µF
N
L
-50
C
= 0.1 µF
N
C
= 3.3 µF, C = NONE
N
L
C
L
100
50
0
-60
-80
C
= 3.3 µF, C = 0.1 µF
N
L
SPECTRUM ANALYZER BACK-
GROUND NOISE
-100
-100
1 PF 10
100 1000 .01 µF .1
0
500 k
f (Hz)
1 M
0.1
100
0.01
1
10
C
N
f (kHz)
Page 8
April 2000 TOKO, Inc.
TK113xxBM/U
DEFINITION AND EXPLANATION OF TECHNICAL TERMS
OUTPUT VOLTAGE (VOUT
)
QUIESCENT CURRENT (IQ)
The output voltage is specified with VIN = (VOUT(TYP) + 1 V)
and IOUT = 30 mA.
The quiescent current is the current which flows through
thegroundterminalundernoloadconditions(IOUT =0mA).
DROPOUT VOLTAGE (VDROP
)
GROUND CURRENT (IGND
)
The dropout voltage is the difference between the input
voltage and the output voltage at which point the regulator
starts to fall out of regulation. Below this value, the output
voltage will fall as the input voltage is reduced. It is
dependent upon the load current and the junction
temperature.
Ground current is the current which flows through the
ground pin(s). It is defined as IIN - IOUT, excluding control
current.
RIPPLE REJECTION RATIO (RR)
Ripple rejection is the ability of the regulator to attenuate
the ripple content of the input voltage at the output. It is
specified with 100 mVrms, 400 Hz superimposed on the
input voltage, where VIN = VOUT + 1.5 V. The output
decoupling capacitor is set to 10 µF, the noise bypass
capacitor is set to 0.1 µF, and the load current is set to 30
mA. Ripple rejection is the ratio of the ripple content of the
output vs. the input and is expressed in dB.
OUTPUT CURRENT (IOUT(MAX)
)
Thisisthemaximumcontinuousoutputcurrentasspecified
under the condition where the output voltage drops 0.3 V
below the value specified with IOUT = 30 mA. The input
voltage is set to VOUT +1 V, and the current is pulsed to
minimize temperature effect.
CONTINUOUS OUTPUT CURRENT (IOUT
)
STANDBY CURRENT (ISTBY
)
Normaloperatingoutputcurrent.Thisislimitedbypackage
power dissipation.
Standbycurrentisthecurrentwhichflowsintotheregulator
when the output is turned off by the control function
(VCONT = VIN). It is measured with VIN = 8 V (9 V for the
8 V output device).
PULSE OUTPUT CURRENT (IOUT(PULSE)
)
Max pulse width 5 ms, Duty cycle 12.5%: pulse load only.
SENSOR CIRCUITS
Overcurrent Sensor
LINE REGULATION (Line Reg)
Line regulation is the ability of the regulator to maintain a
constant output voltage as the input voltage changes. The
line regulation is specified as the input voltage is changed
from VIN = VOUT(TYP) + 1 V to VIN = VOUT(TYP) + 6 V.
The overcurrent sensor protects the device in the event
that the output is shorted to ground.
Thermal Sensor
LOAD REGULATION (Load Reg)
The thermal sensor protects the device in the event that
the junction temperature exceeds the safe value (Tj = 150
°C). Thistemperaturerisecanbecausedbyexternalheat,
excessive power dissipation caused by large input to
output voltage drops, or excessive output current. The
regulator will shut off when the temperature exceeds the
safe value. As the junction temperatures decrease, the
regulatorwillbegintooperateagain. Undersustainedfault
conditions, the regulator output will oscillate as the device
turns off then resets. Damage may occur to the device
under extreme fault conditions.
Load regulation is the ability of the regulator to maintain a
constant output voltage as the load current changes. It is
a pulsed measurement to minimize temperature effects
with the input voltage set to VIN = VOUT +1 V. The load
regulation is specified under two output current step
conditions of 1 mA to 60 mA and 1 mA to 100 mA.
April 2000 TOKO, Inc.
Page 9
TK113xxBM/U
DEFINITION AND EXPLANATION OF TECHNICAL TERMS (CONT.)
Reverse Voltage Protection
If the control function is not used, connect the control
terminal to VIN. When the control function is used, the
control current can be reduced by inserting a series
resistor (RCONT) between the control terminal and VIN. The
value of this resistor should be determined from the graph
below.
Reverse voltage protection prevents damage due to the
output voltage being higher than the input voltage. This
faultconditioncanoccurwhentheoutputcapacitorremains
charged and the input is reduced to zero, or when an
external voltage higher than the input voltage is applied to
the output side.
CONTROL PIN CURRENT VS.
VOLTAGE
CONTROL CURRENT
50
V
OUT
40
30
20
V
IN
R
= 0
CONT
10
0
R
=100K
4
CONT
3
R
C
C
SW
N
0
1
2
5
V
(V)
CONT
Note: V
= differential voltage from V pin to V
pin.
CONT
CONT
IN
SOT23L
The requirement for the pullup resistor (RPULLUP) is deter-
mined by the external control circuitry. For example, open
collector/open drain logic may require RPULLUP over tem-
perature; CMOS logic will not require RPULLUP
.
V
IN
R
C
SW
C
N
SOT89
Page 10
April 2000 TOKO, Inc.
TK113xxBM/U
DEFINITION AND EXPLANATION OF TECHNICAL TERMS (CONT.)
ON/OFF RESPONSE WITH CONTROL AND LOAD TRANSIENT RESPONSE
The turn-on time depends upon the value of the output capacitor and the noise bypass capacitor. The turn-on time will
increase with the value of either capacitor. The graphs below shows the relationship between turn-on time and load
capacitance. If the value of these capacitors is reduced, the load and line regulation will suffer and the noise voltage will
increase. If the value of these capacitors is increased, the turn-on time will increase.
OUTPUT VOLTAGE RESPONSE
LOAD CURRENT STEP RESPONSE
OUTPUT VOLTAGE RESPONSE
(OFF→ON)
(OFF→ON)
C
L
= 2.2 µF
I
= 5 to 35 mA
30 to 60 mA
I
= 10 mA, C = 1000 pF
N
LOAD
LOAD
C
L
= 0.33 µF
0 to 30 mA
C
N
= 0.01 µF
C
= 0.33 µF
L
C
L
= 1.0 µF
C
L
= 1.5 µF
C
N
= 0.1 µF
C
= 0.47 µF
L
I
= 30 mA
LOAD
400
TIME (µs)
800
0
200
600
-5
5
15
25
35
45
-5
5
15
25
35
45
TIME( µs)
TIME (µs)
REDUCTION OF OUTPUT NOISE
Although the architecture of the Toko regulators is designed to minimize semiconductor noise, further reduction can be
achieved by the selection of external components. The obvious solution is to increase the size of the output capacitor.
A more effective solution would be to add a capacitor to the noise bypass terminal. The value of this capacitor should
be 0.1 µf or higher (higher values provide greater noise reduction). Although stable operation is possible without the noise
bypass capacitor, this terminal has a high impedance and care should be taken to avoid a large circuit area on the printed
circuit board when the capacitor is not used. Please note that several parameters are affected by the value of the
capacitors and bench testing is recommended when deviating from standard values.
April 2000 TOKO, Inc.
Page 11
TK113xxBM/U
DEFINITION AND EXPLANATION OF TECHNICAL TERMS (CONT.)
the output side is shorted. Input current gradually falls as
temperaturerises. Youshouldusethevaluewhenthermal
equilibrium is reached.
PACKAGE POWER DISSIPATION (PD)
This is the power dissipation level at which the thermal
sensor is activated. The IC contains an internal thermal
sensorwhichmonitorsthejunctiontemperature. Whenthe
junction temperature exceeds the monitor threshold of
150 °C, the IC is shut down. The junction temperature
rises as the difference between the input power (VIN x IIN)
and the output power (VOUT x IOUT) increases. The rate of
temperature rise is greatly affected by the mounting pad
configuration on the PCB, the board material, and the
ambient temperature. When the IC mounting has good
thermal conductivity, the junction temperature will be low
even if the power dissipation is great. When mounted on
the recommended mounting pad, the power dissipation of
the SOT-23L is increased to 600 mW. For operation at
ambient temperatures over 25 °C, the power dissipation of
the SOT-23L device should be derated at 4.8 mW/°C. The
power dissipation of the SOT-89 package is 900 mW when
mounted as recommended. Derate the power dissipation
at 7.2 mW/°C for operation above 25 °C. To determine the
power dissipation for shutdown when mounted, attach the
device on the actual PCB and deliberately increase the
output current (or raise the input voltage) until the thermal
protection circuit is activated. Calculate the power
dissipation of the device by subtracting the output power
from the input power. These measurements should allow
fortheambienttemperatureofthePCB.Thevalueobtained
from PD /(150 °C - TA) is the derating factor. The PCB
mounting pad should provide maximum thermal
conductivity in order to maintain low device temperatures.
As a general rule, the lower the temperature, the better the
reliability of the device. The thermal resistance when
mounted is expressed as follows:
The range of usable currents can also be found from the
graph below.
(mW)
3
P
D
6
D
PD
4
5
25
50
75
(°C)
150
T
A
Procedure:
1) Find PD
2) PD1 is taken to be PD x (~ 0.8 - 0.9)
3) Plot PD1 against 25 °C
4) Connect PD1 to the point corresponding to the 150 °C
with a straight line.
5) In design, take a vertical line from the maximum
operating temperature (e.g., 75 °C) to the derating
curve.
6) Read off the value of PD against the point at which the
verticallineintersectsthederatingcurve. Thisistaken
as the maximum power dissipation, DPD
.
The maximum operating current is:
IOUT = (DPD / (VIN(MAX) - VOUT
)
Tj = 0jA x PD + TA
For Toko ICs, the internal limit for junction temperature is
150 °C. If the ambient temperature (TA) is 25 °C, then:
150 °C = 0jA x PD + 25 °C
0jA x PD = 125 °C
0jA = 125 °C/ PD
PD is the value when the thermal sensor is activated. A
simple way to determine PD is to calculate VIN x IIN when
Page 12
April 2000 TOKO, Inc.
TK113xxBM/U
DEFINITION AND EXPLANATION OF TECHNICAL TERMS (CONT.)
1000
750
MOUNTED AS
SHOWN
MOUNTED AS
SHOWN
800
600
FREE AIR
600
400
450
300
FREE AIR
200
0
150
0
150
0
50
100
150
0
50
100
T
A
(°C)
T
A
(°C)
SOT23L POWER DISSIPATION CURVE
SOT89 POWER DISSIPATION CURVE
V
V
OUT
IN
V
V
IN
OUT
+
+
+
+
GND
V
CONT
V
CONT
SOT23L BOARD LAYOUT
SOT89 BOARD LAYOUT
APPLICATION NOTE
Copper pattern should be as large as possible. Power dissipation is 600 mW for SOT23L and 900 mV for SOT89. A low
Equivalent Series Resistance (ESR) capacitor is recommended. For low temperature operation, select a capacitor with
alowESRatthelowestoperatingtemperaturetopreventoscillation, degradationofripplerejectionandincreaseinnoise.
The minimum recommended capacitance is 2.2 µF.
April 2000 TOKO, Inc.
Page 13
TK113xxBM/U
APPLICATION INFORMATION
INPUT-OUTPUT CAPACITORS
Linearregulatorsrequireanoutputcapacitorinordertomaintainregulatorloopstability.Thiscapacitorshouldbeselected
to ensure stable operation over the desired temperature and load range. The graphs below show the effects of
capacitance value and ESR on the stable operation area.
V
=
OUT
2.0 V
113xxB
3.0 V
5.0 V
C
L
ESR
C = 1 µF
C = 3.3 µF
C = 10 µF
L
C = 2.2 µF
L
L
L
1000
100
1000
100
1000
100
1000
100
10
10
1 0
1 0
STABLE
OPERATION
AREA
STABLE
OPERATION
AREA
STABLE
OPERATION
AREA
STABLE
OPERATION
AREA
1
1
1
1
0.1
0.1
0.1
0.1
0 .01
0.01
0.01
0.01
150
50
150
1
50
100
1
100
1
1
5 0
100
150
5 0
100
150
I
(mA)
I
(mA)
I
(mA)
I
(mA)
OUT
OUT
OUT
OUT
In general, the capacitor should be at least 1 µF (aluminum electrolytic) and be rated for the actual ambient operating
temperature range. The table below shows typical characteristics for several types and values of capacitance. Please
note that the ESR varies widely depending upon manufacturer, type, size, and material.
ESR
Capacitance
Aluminum
Capacitor
Tantalum
Capacitor
Ceramic
Capacitor
1.0 µF
2.2 µF
3.3 µF
10 µF
2.4 Ω
2.0 Ω
4.6 Ω
1.4 Ω
2.3 Ω
1.9 Ω
1.0 Ω
0.5 Ω
0.140 Ω
0.059 Ω
0.049 Ω
0.025 Ω
Note: ESR is measured at 10 kHz.
Page 14
April 2000 TOKO, Inc.
TK113xxBM/U
NOTES
April 2000 TOKO, Inc.
Page 15
TK113xxBM/U
PACKAGE OUTLINE
0.4 -+0.15
0.05
0.1
M
Marking Information
0.6
6
SOT23L-6
Product Code
Q
Marking
Voltage Code
TK11320B
TK11321B
TK11322B
TK11323B
TK11324B
TK11325B
TK11326B
TK11327B
TK11328B
TK11329B
TK11330B
TK11331B
TK11332B
TK11333B
TK11334B
TK11335B
TK11336B
TK11337B
TK11338B
TK11339B
TK11340B
TK11341B
TK11342B
TK11343B
TK11344B
TK11345B
TK11346B
TK11347B
TK11348B
TK11349B
TK11350B
TK11355B
TK11360B
TK11380B
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
55
60
80
Product Code
Voltage Code
+0.15
0.05
1
2
3
0.32 -
e
e
0.95
0.1
0.95
M
5
PL
e
e
0.95
0.95
Recommended Mount Pad
+0.3
-
0.1
3.5
2.2
(3.4)
Note: Pin 2 and Pin 5 should be
grounded for heat dissipation
0.4
0.3
3.3 +
Dimensions are shown in millimeters
Tolerance: x.x
=
±
0.2 mm (unless otherwise specified)
4.5
1.6
0.44 max
SOT89-5
0.49 max
0.49 max
0.49 max
6
4
5
Lot Code
Numeric Code
Product Code
0.44 max
1
3
2
0.7 max
1.0
0.7 max
0.49 max
0.49 max
0.54 max
e
e
1.5
1.5
e'
3.0
45
°
2.0
e
e
1.5
1.5
Recommended Mount Pad
Dimensions are shown in millimeters
Tolerance: x.x 0.2 mm (unless otherwise specified)
=
±
Toko America, Inc. Headquarters
1250 Feehanville Drive, Mount Prospect, Illinois 60056
Tel: (847) 297-0070 Fax: (847) 699-7864
TOKO AMERICA REGIONAL OFFICES
Midwest Regional Office
Toko America, Inc.
1250 Feehanville Drive
Mount Prospect, IL 60056
Tel: (847) 297-0070
Western Regional Office
Toko America, Inc.
2480 North First Street , Suite 260
San Jose, CA 95131
Tel: (408) 432-8281
Fax: (408) 943-9790
Eastern Regional Office
Toko America, Inc.
107 Mill Plain Road
Danbury, CT 06811
Tel: (203) 748-6871
Fax: (203) 797-1223
Semiconductor Technical Support
Toko Design Center
4755 Forge Road
Colorado Springs, CO 80907
Tel: (719) 528-2200
Fax: (719) 528-2375
Fax: (847) 699-7864
Visit our Internet site at http://www.tokoam.com
The information furnished by TOKO, Inc. is believed to be accurate and reliable. However, TOKO reserves the right to make changes or improvements in the design, specification or manufacture of its
products without further notice. TOKO does not assume any liability arising from the application or use of any product or circuit described herein, nor for any infringements of patents or other rights of
third parties which may result from the use of its products. No license is granted by implication or otherwise under any patent or patent rights of TOKO, Inc.
Page 16
April 2000 TOKO, Inc.
© 1999 Toko, Inc.
IC-214-TK113B
0798O0.0K
Printed in the USA
All Rights Reserved
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