ELM86xxxxBxA
Dual 400mA LDO Regulator
■General description
ELM86xxxxBxA is dual CMOS Voltage Regulator which consists of 2 large current LDOs. With the chip
enable function of each channel, it is possible to control on/off independently. This chip enable control is
managed by positive logic. The standby current is designed to be Typ.0.1μA. ELM86 series is available only
in SOT-26 PKG, while the output voltage is fixed within the range of 1.2 to 4.0V. The internal short protection
function will limit output current when VOUT pin is in short condition; meanwhile, thermal protection circuit
will shut off the output voltage and current when an unusual high chip temperature is detected.
■Features
•
•
•
•
•
•
•
Output voltage range
Input-output voltage difference
Standby current consumption
Current consumption
Input stability
Load stability
Accuracy of output voltage
: 1.2V to 4.0V (by 0.1V)
: Typ.120mV (Vout=3.0V, Iout=100mA)
: Typ.0.1μA
: Typ.25μA
: Typ.0.02%/V (Iout=40mA)
: Typ.5mV (1mA≤Iout≤100mA)
: ±2.0% (Vout>1.5V),
±30mV (Vout≤1.5V)
: Typ.40mA (Vout=0V)
: Typ.165°C
: SOT-26
• Short circuit current limiter
• Thermal shutdown protection
• Package
■Application
•
•
•
•
Portable electronics
Wireless devices
Cell phones
Battery-operated devices
■Maximum absolute ratings
Parameter
Input voltage
CE1,CE2 Input voltage
Vout1,Vout2 voltage
Output current Iout1+Iout2
Power dissipation
Thermal resistance junction to ambient
Operationg Temperature
Storage Temperature
Symbol
Vin
Vce
Vout
Iout
Pd
Rθja
Top
Tstg
Limit
Vss-0.3 to 10.0
Vss-0.3 to Vin+0.3
Vss-0.3 to Vin+0.3
800
300
400
-40 to +85
-55 to +125
Unit
V
V
V
mA
mW
°C/W
°C
°C
13 - 1
ELM86xxxxBxA
■Selection guide
Dual 400mA LDO Regulator
ELM86xxxxBxA-S
Symbol
a, b
Output voltage1
(Vout1)
Output voltage2
(Vout2)
Package
Pin configuration type
Product version
Taping direction
e.g. :
12: Vout=1.2V 18: Vout=1.8V
30: Vout=3.0V 33: Vout=3.3V
e.g. :
12: Vout=1.2V 18: Vout=1.8V
30: Vout=3.0V 33: Vout=3.3V
B : SOT-26
1 : Type1
2 : Type2
A
S : Refer to PKG file
c, d
e
f
g
h
ELM86 x x x x B x A - S
↑ ↑ ↑ ↑ ↑ ↑ ↑ ↑
a b c d e f g h
■Pin configuration
SOT-26 (TOP VIEW)
ELM86xxxxB1A
Pin No.
1
2
3
4
5
6
Pin name
VOUT2
VSS
CE2 *
CE1 *
VIN
VOUT1
ELM86xxxxB2A
Pin No.
1
2
3
4
5
6
Pin name
CE1 *
VIN
CE2 *
VOUT2
VSS
VOUT1
* CE1, CE2 : Active High
■Standard circuit
13 - 2
ELM86xxxxBxA
■Block diagram
Dual 400mA LDO Regulator
■Electrical characteristics
Vout1, Vout2=1.2V (ELM861212BxA)
Parameter
Symbol
Condition
Min. Typ.
1.170 1.200
Output voltage
Vout
Vin=2.2V, Iout=40mA
240
Output current
Iout
Vin=2.2V
0.02
Input stability
ΔVout/ΔVin Iout=40mA, 1.7V≤Vin≤6.0V
5
Load stability
ΔVout/ΔIout 1mA≤Iout≤100mA, Vin=2.2V
Input-Output voltage differential
Vdif
Iout=100mA
380
Current consumption
Iss
Vin=Vce=2.2V, No-load
15
0.1
Standby current consumption
Istandby
Vin=2.2V, Vce=0V
1.4
Input voltage
Vin
1.8
CE input voltage High
Vceh
Vin=6.0V
CE input voltage Low
Vcel
Vin=1.4V
0.00
-0.5 0.05
CE input current High
Iceh
Vin=Vce=2.2V
-0.5 0.0
CE input current Low
Icel
Vin=2.2V, Vce=0V
-40°C≤Top≤+85°C,
Output voltage
±
100
ppm/°C
ΔVout/ΔTop
Iout=40mA, Vin=2.2V
temperature coefficient
Short circuit current
Ilim
Vout=0V
40
mA
Ripple rejection ratio
RR
f=1kHz, Iout=40mA
60
dB
Thermal shutdown temperature
Tsd
165
°C
Output noise
Vno
BW=10Hz to 100kHz
30
μVrms
: Electrical characteristics of both channels are identical while this table only represents those of one channel.
*
Top=25°C
Max. Unit
1.230
V
mA
0.20 %/V
20
mV
620
mV
50
μA
0.5
μA
6.0
V
Vin
V
0.25
V
0.5
μA
0.5
μA
13 - 3
ELM86xxxxBxA
Vout1, Vout2=1.8V (ELM861818BxA)
Dual 400mA LDO Regulator
Parameter
Symbol
Condition
Min. Typ.
1.764 1.800
Output voltage
Vout
Vin=2.8V, Iout=40mA
300
Output current
Iout
Vin=2.8V
0.02
Input stability
ΔVout/ΔVin Iout=40mA, 2.3V≤Vin≤6.0V
5
Load stability
ΔVout/ΔIout 1mA≤Iout≤100mA, Vin=2.8V
Input-Output voltage differential
Vdif
Iout=100mA
145
Current consumption
Iss
Vin=Vce=2.8V, No-load
15
0.1
Standby current consumption
Istandby
Vin=2.8V, Vce=0V
1.4
Input voltage
Vin
1.8
CE input voltage High
Vceh
Vin=6.0V
CE input voltage Low
Vcel
Vin=1.4V
0.00
-0.5 0.05
CE input current High
Iceh
Vin=Vce=2.8V
-0.5 0.0
CE input current Low
Icel
Vin=2.8V, Vce=0V
-40°C≤Top≤+85°C,
Output voltage
±
100
ΔVout/ΔTop
ppm/°C
Iout=40mA, Vin=2.8V
temperature coefficient
Short circuit current
Ilim
Vout=0V
40
mA
Ripple rejection ratio
RR
f=1kHz, Iout=40mA
60
dB
Thermal shutdown temperature
Tsd
165
°C
Output noise
Vno
BW=10Hz to 100kHz
30
μVrms
*: Electrical characteristics of both channels are identical while this table only represents those of one channel.
Top=25°C
Max. Unit
1.836
V
mA
0.20 %/V
20
mV
230
mV
50
μA
0.5
μA
6.0
V
Vin
V
0.25
V
0.5
μA
0.5
μA
Vout1, Vout2=3.0V (ELM863030BxA)
Parameter
Symbol
Condition
Min. Typ.
2.940 3.000
Output voltage
Vout
Vin=4.0V, Iout=40mA
400
Output current
Iout
Vin=4.0V
0.02
Input stability
ΔVout/ΔVin Iout=40mA, 3.5V≤Vin≤6.0V
5
Load stability
ΔVout/ΔIout 1mA≤Iout≤100mA, Vin=4.0V
Input-Output voltage differential
Vdif
Iout=100mA
110
Current consumption
Iss
Vin=Vce=4.0V, No-load
15
0.1
Standby current consumption
Istandby
Vin=4.0V, Vce=0V
1.4
Input voltage
Vin
1.8
CE input voltage High
Vceh
Vin=6.0V
CE input voltage Low
Vcel
Vin=1.4V
0.00
-0.5 0.05
CE input current High
Iceh
Vin=Vce=4.0V
-0.5 0.0
CE input current Low
Icel
Vin=4.0V, Vce=0V
-40°C≤Top≤+85°C,
Output voltage
±
100
ppm/°C
ΔVout/ΔTop
Iout=40mA, Vin=4.0V
temperature coefficient
Short circuit current
Ilim
Vout=0V
40
mA
Ripple rejection ratio
RR
f=1kHz, Iout=40mA
60
dB
Thermal shutdown temperature
Tsd
165
°C
Output noise
Vno
BW=10Hz to 100kHz
30
μVrms
*: Electrical characteristics of both channels are identical while this table only represents those of one channel.
Top=25°C
Max. Unit
3.060
V
mA
0.20 %/V
20
mV
175
mV
50
μA
0.5
μA
6.0
V
Vin
V
0.25
V
0.5
μA
0.5
μA
13 - 4
ELM86xxxxBxA
Vout1, Vout2=3.3V (ELM863333BxA)
Dual 400mA LDO Regulator
Parameter
Symbol
Condition
Min. Typ.
3.234 3.300
Output voltage
Vout
Vin=4.3V, Iout=40mA
400
Output current
Iout
Vin=4.3V
0.02
Input stability
ΔVout/ΔVin Iout=40mA, 3.8V≤Vin≤6.0V
5
Load stability
ΔVout/ΔIout 1mA≤Iout≤100mA, Vin=4.3V
Input-Output voltage differential
Vdif
Iout=100mA
110
Current consumption
Iss
Vin=Vce=4.3V, No-load
15
0.1
Standby current consumption
Istandby
Vin=4.3V, Vce=0V
1.4
Input voltage
Vin
1.8
CE input voltage High
Vceh
Vin=6.0V
CE input voltage Low
Vcel
Vin=1.4V
0.00
-0.5 0.05
CE input current High
Iceh
Vin=Vce=4.3V
-0.5 0.0
CE input current Low
Icel
Vin=4.3V, Vce=0V
-40°C≤Top≤+85°C,
Output voltage
±
100
ΔVout/ΔTop
ppm/°C
Iout=40mA, Vin=4.3V
temperature coefficient
Short circuit current
Ilim
Vout=0V
40
mA
Ripple rejection ratio
RR
f=1kHz, Iout=40mA
60
dB
Thermal shutdown temperature
Tsd
165
°C
Output noise
Vno
BW=10Hz to 100kHz
30
μVrms
*: Electrical characteristics of both channels are identical while this table only represents those of one channel.
Top=25°C
Max. Unit
3.366
V
mA
0.20 %/V
20
mV
175
mV
50
μA
0.5
μA
6.0
V
Vin
V
0.25
V
0.5
μA
0.5
μA
■Marking
SOT-26
a to d : Assembly lot No.
A to Z (I, O, X excepted) and 0 to 9
13 - 5
