L6271 데이터 시트보기 (PDF) - STMicroelectronics
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L6271 Datasheet PDF : 10 Pages
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L6270 - L6271
Figure 1. Charge Mode Configuration (only a suggestion, the application is completely free
according with Electrical Characteristics).
HVP
Qpiezo=K*[Cint*(1+Ra/Rb)+C]*Vdac
Qpiezo=Cost*Vdac
Cost=k*[Cint*(1+Ra/Rb)+C]
1
K
Vdac
+
-
HVM
Cpiezo
RP
1
K
Ra
Rb
C
Cint
D98IN970A
OPERATIONAL AMPLIFIERS DESCRIPTION
Each driver has two output stages scaled in cur-
rent by a factor K = 10.
In voltage mode configuration the two outputs are
shorted.
In charge mode configuration OUT1 drives a ca-
pacitor Cint and is closed in feedback, while
OUTK drives the piezo, mirroring the current sup-
plied to Cint, with a current multiplied by a K fac-
tor (see Fig.1).
The supply voltage can be internally generated by
the DC-DC converter, or external, maintaining the
DC-DC converter in sleep mode (PIN15 shorted
to ground), in this case the supply voltage can be
0 to V512+4 minimum value up to 80V in single
supply or V512+4 to 40V symmetrical to ground.
The drivers have 130dB DC gain and the Band-
width is 500KHz. Stability is granted with a mini-
mum gain of 20dB, for a capacitive load in the
range 0.4nF up to 24nF.
The drivers can be supplied with HVP-HVM (dou-
ble supply mode) or with HVP-Ground (single
supply mode). In both cases they can achieve a
rail-to rail output dynamic range with a maximum
load current of ±75mA.
In double supply mode the input stage has -
5V/+5V dynamic range, while in single supply
mode it has 1.2V up to 10V input dynamic range.
A 2.5V internal reference voltage is available at
one pin (Vref) that can be used to close the feed-
back if the input signal is symmetrical around
2.5V.
In this case the output dynamic is symmetrical
around 2.5V. It is present a 2.5V down level
shifter that can be connected between the input
signal and the input of the opamp, to work inter-
nally with a signal symmetrical to ground.
DC-DC CONVERTER DESCRIPTION
The DC-DC converter inside the chip can be sup-
plied from 5V up to 12V and has two parts, one to
supply the positive and one to supply the negative
voltage.
The positive one takes the reference from the pin
DC2REF and multiplies it by 20 to have the output
voltage.
If DC2REF is less than 0.6V the whole DC-DC con-
verter is shut down and the high voltages have to
be supplied from external. In Sleep Mode (sleep
pin) HVM is shorted to GND. When in single sup-
ply, no load has to be connected to H-bridge output
and HVM must be connected to GND.
The topology is a standard resonant full-wave
boost one: the LC oscillation is kept running all
the time and a set of comparators is used to syn-
chronize turning on and off of the power MOS in
order to have zero current and zero voltage
switching and furthermore controlled rectification.
The step-up converter is designed to work in
”Bang-Bang” mode and in Linear mode, in this
case an AC compensation network is required
(RC-comp) to guarantee the stability in a wide op-
erative range (i.e. changing coil, load, output and
input voltage...).
In Bang-Bang mode (Bang/Lin=V512 high condi-
tion) whenever the output HVP goes down fixed
threshold (Vth,out = 20 ⋅ DC2REF), the next oscilla-
tion phase is more powerful and is used to trans-
fer energy from the power supply to the output.
In Linear mode, according to the ouput voltage,
the current loaded into the coil is changing like a
6/10
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