S-8550AA-M5T1G Seiko Instruments, S-8550AA-M5T1G Datasheet - Page 13
S-8550AA-M5T1G
Manufacturer Part Number
S-8550AA-M5T1G
Description
IC, SYNC STEP-DOWN REGULATOR, SOT-23-5
Manufacturer
Seiko Instruments
Datasheet
1.S-8550AA-M5T1G.pdf
(31 pages)
Specifications of S-8550AA-M5T1G
Primary Input Voltage
5.5V
No. Of Outputs
1
Output Voltage
4V
Output Current
600mA
No. Of Pins
5
Operating Temperature Range
-40°C To +85°C
Operating Temperature Min
85°C
Input Voltage
5.5 V
Duty Cycle (max)
100 %
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Package / Case
SOT-23-5
Minimum Operating Temperature
- 40 C
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
S-8550AA-M5T1G
Manufacturer:
SEIKO
Quantity:
230
Part Number:
S-8550AA-M5T1G
Manufacturer:
SII/精工
Quantity:
20 000
STEP-DOWN, BUILT-IN FET, SYNCHRONOUS RECTIFICATION, PWM CONTROL SWITCHING REGULATORS
Rev.4.0
2. Capacitors (C
3. Output voltage setting resistors (R
Select as C
optimum capacitor selection depends on the L value, capacitance value, wiring, and application (output load).
Select C
A ceramic capacitor can be used for the input (C
impedance and averages the input current to improve efficiency. Select C
power supply to be used. The recommended capacitance is 4.7 μF for the S-8550/8551 Series when a general
lithium ion rechargeable battery is used.
With the S-8550/8551 Series, V
resistors across the VOUT and VSS pins. Because V
Connect divider resistors R
an effect, adjust the values of R
C
By setting the zero point (the phase feedback) by adding capacitor C
parallel, the feedback loop gains the phase margin. As a result, the stability can be obtained. In principle, to use
the portion how much the phase has feed back by the zero point effectively, define C
equation.
This equation is the reference.
The followings are explanation regarding the proper setting.
To use the portion how much the phase has feed back by the zero point effectively, set R
zero point goes into the higher frequency than the pole frequency of L and C
pole frequency of L and C
The transient response can be improved by setting the zero point frequency in the range of lower frequency.
However, since the gain becomes higher in the range of high frequency, the total phase of feedback loop delays
180° or more by setting the zero point frequency in the significantly lower range. As a result, the gain cannot be
0 dB or lower in the frequency range thus the operation might be unstable. Determine the proper value after the
sufficient evaluation under the actual condition.
The typical constants by our evaluation are in Table 9.
_00
FB
*1. The recommended parts in Table 6
connected in parallel with R
V
OUT
OUT
1.1
1.8
3.3
4.0
C
V
f
f
(s) [V]
pole
zero
after sufficient evaluation under actual use conditions.
OUT
OUT
FB
≅
≅
≅
IN
=
a capacitor with large capacitance and small ESR for smoothing the ripple voltage.
, C
2 × π × R
2 × π ×
2 × π × R
(R
OUT
FB1
)
R
R
+ R
FB2
OUT
1
FB1
1
FB1
FB1
FB1
L × C
1
36
36
36
51
FB2
and the zero point frequency by C
[kΩ]
and R
× 70 kHz
× C
Table 9 Constant for External Parts
FB1
FB1
)
OUT
OUT
FB
× 0.6
and R
is a capacitor for phase compensation.
can be set to any value by external divider resistors. Connect the divider
FB2
Seiko Instruments Inc.
as close to the IC to minimize effects from of noise. If noise does have
FB1
FB2
R
, R
so that R
FB2
43
18
FB2
8
9
IN
[kΩ]
) and output (C
), capacitor for phase compensation (C
FB1
FB
+ R
= 0.6 V typ., V
C
FB2
FB
120
100
56
68
FB
[pF]
< 100 kΩ.
OUT
and R
) sides. C
FB
OUT
FB1
to output voltage setting resistor R
L [μH]
IN
.
can be calculated by this equation.
3.3
3.3
3.3
3.3
OUT
according to the impedance of the
IN
. The following equations are the
*1
lowers the power supply
S-8550/8551 Series
FB
C
OUT
referring to the following
FB1
10
10
10
10
[μF]
and C
*1
FB
)
FB
so that the
FB1
The
13
in
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