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S1F76610 Series
S1F70000 Series EPSON 2–3
Technical Manual
S1F76610
Series
SPECIFICATIONS
Absolute Maximum Ratings
Notes
1. Using the IC under conditions exceeding the aforementioned absolute maximum ratings may lead to permanent destruction of
the IC. Also, if an IC is operated at the absolute maximum ratings for a longer period of time, its functional reliability may be
substantially deteriorated.
2. All the voltage ratings are based on V
DD = 0V.
3. The output terminals (V
O,VREG) are meant to output boosted voltage or stabilized boosted voltage. They, therefore, are not the
terminals to apply an external voltage. In case the using specifications unavoidably call for application of an external voltage,
keep such voltage below the voltage ratings given above.
Reconmmended Operating Conditions
VDD = 0V, Ta = –40 to +85˚C unless otherwise noted
Notes
1. The recommended circuit configuration for low-valtage operation (when V
I is between –1.2V and –2.2V) is shown in
the following figure. Note that diode D1 should have a maximum forward voltage of 0.6V with 1.0mA forward current.
2. R
L min can be varied depending on the input voltage.
Rating
Parameter Symbol Conditions
Oscillator startup voltage
Oscillator shutdown voltage
Load resistance
Output current
Clock frequency
CR oscillator network resistance
Capacitance
Stabilization voltage sensing resis-
tance
V
STA
VSTP
RL
IO
fOSC
ROSC
C1, C2, C3
RRV
ROSC =1MΩ
C
3 = 10 µF, CL/C3 ≤ 1/20,
Ta = –20 to +85˚C.
See note 1.
R
OSC = 1MΩ
R
OSC = 1MΩ
Min.
—
—
–1.8
R
Lmin.
See note 2.
—
10.0
680
3.3
100
Typ.
—
—
—
—
—
—
—
—
—
Max.
–1.8
–2.2
—
—
20.0
30.0
2,000
—
1,000
Unit
V
V
Ω
mA
kHz
kΩ
µF
kΩ
N = 2: Boosting to a double voltage
N = 3: Boosting to a triple voltage
OSC1, OSC2, P
OFF
TC1, TC2, RV
V
O Note 3)
V
REG Note 3)
Plastic package
At leads
Parameter
Codes
Ratings
Units Remarks
Input supply voltage
Input terminal voltage
Output voltage
Allowable dissipation
Working temperature
Storage temperature
Soldering temperature
and time
V
I – VDD
VI – VDD
VO – VDD
PD
Topr
Tstg
Tsol
–20/N to V
DD + 0.3
V
I – 0.3 to VDD + 0.3
V
O – 0.3 to VDD + 0.3
–20 to V
DD + 0.3
V
O to VDD + 0.3
Max. 300
–40 to +85
–55 to +150
260 • 10
V
V
V
V
V
mW
°C
°C
°C • s