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RV5VH Datasheet, PDF (39/47 Pages) RICOH electronics devices division – DC/DC CONVERTER CONTROLLER | |||
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RV5VH3ÃÃ
OPERATION
⢠DC/DC Converter 1
RV5VH3ÃÃ
OSC
p_shift
Vref
Error Amp.1
VFM1
VDD
3
CSW
1
FB1 R1
2
R2
EXT1 Rb
4
Cb
SBD
L1
C
NPN Tr.
VIN
VOUT1
The DC/DC1 can operate by an input voltage to the VDD pin. A change in the VOUT1 will feed back to the internal error
amplifier through external voltage setting resistors and internal feed back resistors. When the feed back voltage is lower
than the reference voltage, the error amplifier enables oscillation or otherwise, it will stop oscillation. The internal feed back
resistor âRâ which is fixed and adjusted by laser trim can make the feed back input voltage to âError Amp.1â stable.
Pulses from the âOSCâ circuit have a duty cycle of 50% and it becomes 65 to 75%(at high side) through the âP_shiftâ circuit.
These clock pulses control VFM circuit and make it possible to operate as a boost converter.
The output of âEXT1â is driven by CMOS buffer and an external NMOS driver is also available instead of an NPN transis-
tor, in such cases the Rb and the Cb are not necessary. The DC/DC1 can be shut down by CSW pin. When the CSW pin
is âHâ, VDD level, the DC/DC1 is enabled and when the CSW pin is âLâ, GND level, the DC/DC1 is disabled. The EXT1
pin outputs âLâ while the DC/DC1 is disabled.
⢠Set Output Voltage DC/DC1
VOUT1 is described as follows :
VOUT1 : R1+R2=VFB1 : R2
VOUT1=VFB1 Ã (R1+R2) / R2
DC/DC1 controls VFB1 to be a constant voltage,
thus, any output voltage of DC/DC1 can be set by changing R1 or/and R2.
Certain temperature coefficient of VOUT1 can be set by using R1, R2 having such temperature characteristics.
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