L6610N STMicroelectronics, L6610N Datasheet - Page 19

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L6610N

Manufacturer Part Number
L6610N
Description
IC CTRLR HOUSEKEEPING BCD 24-DIP
Manufacturer
STMicroelectronics
Datasheet

Specifications of L6610N

Applications
Programmable Housekeeping Controller
Voltage - Supply
4.2 V ~ 7 V
Current - Supply
5mA
Operating Temperature
0°C ~ 105°C
Mounting Type
Through Hole
Package / Case
24-DIP (0.300", 7.62mm)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Voltage - Input
-
Figure 18. Magamp control feedback section
– Auxiliary section, error amplifier C. This section (fig. 19) provides the feedback signal for the auxiliary
Figure 19. Auxiliary feedback section
converter following the same operating principles as the Main section. The auxiliary output voltage
(Vaux) is often defined as "Standby voltage" because the converter remains alive during standby con-
dition (the Main converter is stopped) to supply the chip and all the ancillary circuits. Typical values for
its output voltage are 5V or 3.3V.
The inverting input (Cinv, pin#9) is connected to the output voltage through an external resistor divider
whereas the non-inverting one is connected to a 1.25V trimmable internal voltage reference (see "On
board trimming and mode operating" paragraph).
The compensation network Zc(aux) is placed between E/A inverting input and output pins.
When Dmon recognizes an undervoltage condition on the auxiliary output, an internal n-channel MOS
(in open drain configuration) grounds E/A output pin; the high current flowing through the optocoupler
is then transferred to the primary side causing a duty cycle as short as possible; this prevents a high
energy transfer from primary to secondary under short circuit conditions, thus reducing the thermal
stress on the power components.
pin#3) drives the external circuitry that biases the magamp core. Between these pins it is connected
the compensation network (Z
improve response time.
The feedback control circuit determines the magamp "off" time, converting the voltage at the output
of error amplifier into a current I
value, V(B
age across R
PWM waveform across D
achieves regulation.
It is possible to use this section to drive a pass transistor to obtain 3.3V with a linear regulator; in the
"Application idea" section an example is showed to implement this solution.
out
) decreases; this causes a higher voltage across R
E
and a larger reset current I
to AUX
control
magamp
magamp
2
to get narrower. This pulls the output voltage back to the desired level and
D
D
1
1
C
). The maximum positive output voltage is clamped at about 3.5V to
R
, which resets the magamp. If the output voltage exceeds its preset
I
I
R
R
R
D
D
B
2
2
Cout
R
R
Q
Q
E
E
V
V
1
1
D2
D2
R
Zc(aux)
GND
(V
R
R
BE
R
R
DMON
L
L
C
C
S
S
OCP bounce
of Q
1
Bout
Bout
L6610
L6610
_
+
C
C
is supposed constant). A larger I
R
+1.25V
H
Zc
Zc
+
+
_
_
Cinv
L6610
+1.25V
+1.25V
C
which, in turn, implies a larger volt-
R
V
Binv
Binv
L
AUX
R
R
H
H
+3.3V
+3.3V
R
R
L
L
R
causes the
L6610
19/29

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