MIC2196 Micrel Semiconductor, MIC2196 Datasheet - Page 8
MIC2196
Manufacturer Part Number
MIC2196
Description
400kHz SO-8 Boost Control IC
Manufacturer
Micrel Semiconductor
Datasheet
1.MIC2196.pdf
(11 pages)
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MIC2196
The mode of operation (continuous or discontinuous), the
minimum input voltage, maximum output power and the
minimum value of the current limit threshold determine the
value of the current sense resistor. Discontinuous mode is
where all the energy in the inductor is delivered to the output
at each switching cycle. Continuous mode of operation
occurs when current always flows in the inductor, during both
the low-side MOSFET on and off times. The equations below
will help to determine the current sense resistor value for
each operating mode.
The critical value of output current in a boost converter is
calculated below. The operating mode is discontinuous if the
output current is below this value and is continuous if above
this value.
where:
Maximum Peak Current in Discontinuous Mode:
The peak inductor current is:
where:
The maximum value of current sense resistor is:
where:
Maximum Peak Current in Continuous Mode:
The peak inductor current is equal to the average inductor
current plus one half of the peak to peak inductor current.
The peak inductor current is:
where:
MIC2196
V
L is the value of the boost inductor
F
V
S
IN
O
I
I
R
I
I
is the efficiency of the boost converter
IND(pk)
IND(pk)
IND(pk)
CRIT
I
V
V
L is the value of the boost inductor
f
V is the minimum current sense threshold of the
CS pin.
O
S
is the switching frequency
is the output voltage
SENSE
is the minimum input voltage
O
IN
is the efficiency of the boost converter
is the switching frequency
is the maximum output current
is the output voltage
is the minimum input voltage
V
IN
I
IND(ave)
V
V
2 fs L V
V
2
O
I
IN
2 I
IND(pk)
SENSE
I
V
O
O
O
L fs
V
2
V
1
V
L
O
IN
2 V
O
I
IND(pp)
2
V
O
O
V
IN
V
fs L
IN
8
V
However, the voltage drop across the inductor winding resis-
tance and low-side MOSFET on-resistance must be ac-
counted for at the lower input voltages that the MIC2196
operates at:
where:
The maximum value of current sense resistor is:
where:
The current sense pin, CS, is noise sensitive due to the low
signal level. The current sense voltage measurement is
referenced to the signal ground pin of the MIC2196. The
current sense resistor ground should be located close to the
IC ground. Make sure there are no high currents flowing in this
trace. The PCB trace between the high side of the current
sense resistor and the CS pin should also be short and routed
close to the ground connection. The input to the internal
current sense amplifier has a 30ns dead time at the beginning
of each switching cycle. This dead time prevents leading
edge current spikes from prematurely terminating the switch-
ing cycle. A small RC filter between the current sense pin and
current sense resistor may help to attenuate larger switching
spikes or high frequency switching noise. Adding the filter
slows down the current sense signal, which has the effect of
slightly raising the overcurrent limit threshold.
MOSFET Gate Drive
The MIC2196 converter drives a low-side N-channel MOSFET.
The driver for the OUTN pin has a 2 typical source and sink
impedance. The VIN pin is the supply pin for the gate drive
circuit. The maximum supply voltage to the VIN pin is 14V.
MOSFET Selection
In a boost converter, the V
mately equal to the output voltage. The maximum V
of the MOSFET must be high enough to allow for ringing and
spikes in addition to the output voltage.
The VIN pin supplies the N-channel gate drive voltage. The
V
L
GS
may be approximated as V
threshold voltage of the N-channel MOSFET must be
R
R
MOSFET
R
V
I
V
V
L is the value of the boost inductor
f
V
V
of the CS pin.
O
S
L
WINDING
DSON
SENSE
O
IN
L
SENSE
is the efficiency of the boost converter
is the switching frequency
is the maximum output current
is the voltage across the inductor
is the output voltage
V
is the minimum input voltage
IN
is the on resistance of the low side switching
is the minimum current sense threshold
V
V
is the winding resistance of the inductor
V
I
IND(pk)
SENSE
O
IN
I
O
R
DS
WINDING
of the MOSFET is approxi-
IN
for higher input voltage.
R
DSON
August 2004
DS
Micrel
rating
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