S-1165B15MC-N6ATFG Просмотр технического описания (PDF) - Seiko Instruments Inc
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S-1165B15MC-N6ATFG Datasheet PDF : 23 Pages
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HIGH RIPPLE-REJECTION LOW DROPOUT CMOS VOLTAGE REGULATOR
Rev.3.1_00
S-1165 Series
Electrical Characteristics
Item
Output voltage*1
Output current*2
Dropout voltage*3
Line regulation
Load regulation
Output voltage
temperature coefficient*4
Current consumption
during operation
Current consumption
during shutdown
Input voltage
Shutdown pin
input voltage “H”
Shutdown pin
input voltage “L”
Shutdown pin
input current “H”
Shutdown pin
input current “L”
Ripple rejection
Short-circuit current
Table 4
(Ta = 25°C unless otherwise specified)
Symbol
Conditions
Min.
Typ.
Max.
Unit
Test
Circuit
VOUT(E) VIN = VOUT(S) + 1.0 V, IOUT = 30 mA
VOUT(S) VOUT(S) VOUT(S)
× 0.99
× 1.01
V
1
IOUT VIN ≥ VOUT(S) + 1.0 V
200*5 ⎯
⎯ mA 3
Vdrop IOUT = 200 mA 1.5 V ≤ VOUT(S) ≤ 2.5 V ⎯
0.20 0.30 V
1
2.6 V ≤ VOUT(S) ≤ 5.5 V ⎯
0.14 0.20
ΔVOUT1 VOUT(S) + 0.5 V ≤ VIN ≤ 6.5 V,
ΔVIN• VOUT IOUT = 30 mA
⎯
0.05 0.2 % / V
ΔVOUT2
VIN = VOUT(S) + 1.0 V,
1.0 mA ≤ IOUT ≤ 200 mA
⎯
20
40 mV
ΔVOUT VIN = VOUT(S) + 1.0 V, IOUT = 30 mA,
ΔTa• VOUT −40°C ≤ Ta ≤ 85°C
⎯
±100
⎯
ppm
/ °C
VIN = VOUT(S) + 1.0 V, ON/OFF pin = ON,
ISS1 no load
⎯
35
65 μA 2
VIN = VOUT(S) + 1.0 V, ON/OFF pin = OFF,
ISS2 no load
⎯
0.1
1.0
VIN
⎯
2.0
⎯
6.5
V⎯
VSH VIN = VOUT(S) + 1.0 V, RL = 1.0 kΩ
1.5
⎯
⎯
4
VSL VIN = VOUT(S) + 1.0 V, RL = 1.0 kΩ
⎯
⎯
0.3
ISH VIN = 6.5 V, VON/OFF = 6.5 V
−0.1
⎯
0.1 μA
ISL
RR
Ishort
VIN = 6.5 V, VON/OFF = 0 V
VIN = VOUT(S) + 1.0 V, f = 1.0 kHz,
ΔVrip = 0.5 Vrms, IOUT = 30 mA
VIN = VOUT(S) + 1.0 V, ON/OFF pin = ON,
VOUT = 0 V
−0.1
⎯
0.1
⎯
70
⎯ dB 5
⎯
350
⎯ mA 3
*1. VOUT(S): Specified output voltage
VOUT(E): Actual output voltage at the fixed load
The output voltage when fixing IOUT(= 30 mA) and inputting VOUT(S) + 1.0 V
*2. The output current at which the output voltage becomes 95% of VOUT(E) after gradually increasing the output
current.
*3. Vdrop = VIN1 − (VOUT3 × 0.98)
VOUT3 is the output voltage when VIN = VOUT(S) + 1.0 V and IOUT = 200 mA.
VIN1 is the input voltage at which the output voltage becomes 98% of VOUT3 after gradually decreasing
the input voltage.
*4. The change in temperature [mV/°C] is calculated using the following equation.
[ ] [ ] [ ] ΔVOUT
mV/°C
= V *1
OUT(S)
V
*2 ×
ΔVOUT
ppm/°C *3 ÷ 1000
ΔTa
ΔTa • VOUT
*1. The change in temperature of the output voltage
*2. Specified output voltage
*3. Output voltage temperature coefficient
*5. The output current can be at least this value.
Due to restrictions on the package power dissipation, this value may not be satisfied. Attention should be
paid to the power dissipation of the package when the output current is large.
This specification is guaranteed by design.
Seiko Instruments Inc.
7
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