cpc1590 Clare, Inc., cpc1590 Datasheet - Page 6
cpc1590
Manufacturer Part Number
cpc1590
Description
Cpc1590 Optically Isolated Gate Drive Circuit
Manufacturer
Clare, Inc.
Datasheet
1.CPC1590.pdf
(10 pages)
2. Introduction
The CPC1590 is a MOSFET Gate Driver that requires
no external power supply. It can regulate an input
voltage, up to 200V, down to 12.2V for internal use. It
is specifically designed for low-duty-cycle switching
frequencies that drive 4nF of gate capacitance.
3. Functional Description
The CPC1590 is used in conjunction with a single
MOSFET transistor for remote switching of DC loads
(Figure
switching of low-frequency AC loads
isolated power is unavailable.
The device uses external components, most notably a
charge storage capacitor, to satisfy design switching
and over-voltage protection requirements. Because of
this design flexibility, the designer may choose a great
number of MOSFETs for use in a wide variety of
applications. The designer simply needs to know the
MOSFET total gate charge (Q
information a capacitor can be chosen. The
capacitance of the storage capacitor should be greater
than, or equal to, Q
The CPC1590 has two states of operation:
(1) sufficient input control current is flowing, the LED is
turned on, and the gate current is being applied. The
light from the LED is being reflected onto the
photovoltaic, which then produces a photocurrent that
Figure 2. CPC1590 DC Application Circuit
CPC1590
6
LED +
LED -
2), and two MOSFETS and a diode for remote
1
4
2
3
NC
NC
G
/0.5V.
G
), and with this
CPC1590
(Figure
3) where
PRELIMINARY
turns on the NPN bipolar transistor and provides the
charge (I x t = Q), or the gate current that is being
applied to turn on the MOSFET. (2) Sufficient input
control current is not flowing, the LED is turned off,
and gate current is not flowing. The LED is off
because V
and not enough current is being applied. This turns on
the PNP bipolar transistor, providing a path for gate
current to discharge to V
When V
capacitor begins to charge. The charge is sent through
a bootstrap diode to prevent the charge from escaping
and discharging through a turned-on MOSFET. The
J-FET then regulates the voltage between 10V and
16V. The input control current is applied, then the
charge is transferred from the storage capacitor
through the NPN bipolar transistor, along with the
charge from the photovoltaic, to the MOSFET gate to
accomplish a rapid turn-on. After the capacitor has
discharged and the MOSFET has turned on, the
photocurrent from the input optocoupler continues to
flow into the gate to keep the MOSFET turned on.
When the input control current is removed, the gate
current stops flowing and the PNP bipolar transistor is
on and is discharging the MOSFET gate. The
MOSFET is now off. At this point the capacitor begins
to recharge for the next turn on cycle.
The circuit below does not include over-voltage
protection.
8
7
5
6
V
V
V
V
LOAD
CAP
L1
G
L2
F
<< the minimum forward voltage required,
C
is first applied, the external storage
ST
L2
.
LOAD
+V
-V
LOAD
LOAD
R00B
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