TY72011 Ver la hoja de datos (PDF) - ON Semiconductor
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TY72011
ON Semiconductor
TY72011 Datasheet PDF : 13 Pages
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TY72011AP2
In order to clarify the device behavior, we can distinguish the
following simplified operating phases:
ąă1.
The load is at its nominal value. The SMPS operates in
borderline conduction mode and the switching
frequency is imposed by the external elements (Vin,
Lp, Ip, Vout). The MOSFET is turned on at the
minimum drain-source level.
ąă2.
The load starts to decrease and the free-running
frequency hits the internal clamp.
ąă3.
The frequency can no longer naturally increase
because of the clamp. The frequency is now controlled
by the internal VCO but remains constant. The peak
current finds no other option that diminishing to satisfy
equation (1).
ąă4.
The peak current has reached the internal minimum
ceiling level and is now frozen for the remaining
cycles.
ąă5.
To further reduce the transmitted power (VFB goes up),
the VCO decreases the switching frequency. In case of
output overshoot, the VCO could decrease the
frequency down to zero. When the overshoot has gone,
VFB diminishes again and the IC smoothly resumes its
operation.
Advantages of the Method
By implementing the aforementioned control scheme, the
TY72011 brings the following advantages:
•ăDiscontinuous only operation: in DCM, the FLYBACK
is a first order system (at low frequencies) and thus
naturally eases the feedback loop compensation.
•ăA low-cost secondary rectifier can be used thanks to
smooth turn-off conditions.
•ăValley switching ensures minimum switching losses
brought by Coss and all the parasitic capacitances.
•ăBy folding back the switching frequency, you turn the
system into Pulse Duration Modulation. This method
prevents from generating uncontrolled output ripple as
with hysteretic controllers.
•ăBy letting you control the peak current value at which
the frequency goes down, you ensure that this level is
low enough to avoid transformer acoustic noise
generation even at audible frequencies.
Detailed Description
The following sections describe the internal behavior of
the TY72011.
Free-Running Operation
As previously said, the operating frequency at nominal
load is dictated by the external elements. We can split the
different switching sections in two separated instants. In the
following text we use the internal error voltage, Verr. This
level is elaborated as Figure 7 portrays. Verr is linked to VFB
(pin 4) by the following formula: Verr + 10 * 3Ă·ĂVFB
ON time: the ON time is given by the time it takes to reach
the peak current setpoint imposed by the level on FB pin
(pin 4). Since this level is internally divided by three, the
peak setpoint is simply:
Ipk + 3Ă·ĂR1senseĂ ·ĂVerr
(eq.Ă2)
The rising slope of the peak current is also dependent on
the inductance value and the rectified DC input voltage by:
dIL
dt
+
VinDC
Lp
(eq.Ă3)
By combining both equations, we obtain the ON time
definition:
ton
+
Lp
VinDCĂ
·ĂIp
+
LpĂ·ĂVERR
VinDCĂ·Ă3Ă·ĂRsense
(eq.Ă4)
OFF time: the time taken by the demagnetization of the
transformer depends on the reset voltage applied at the
switch opening. During the conduction time of the
secondary diode, the primary side of the transformer
undergoes a reflected voltage of: [Np/Ns . (Vf + Vout)]. This
voltage applied on the primary inductance dictates the time
needed to decrease from Ip down to zero:
ƪ ƫ toff +
Lp
NNpsĂ ·Ă(Vout ) Vf)
ƪ ƫ ·ĂIp +
LpĂ·ĂVerr
NNpsĂ ·Ă(Vout ) Vf) Ă·Ă3Ă·ĂRsense
(eq.Ă5)
By adding ton + toff, we obtain the natural switching
frequency of the SMPS operating in Borderline Conduction
Mode (BCM):
ȧȧȧ ȧȳȴ ƪ ƫ ton ) toff + 3VĂ·ĂeRrrsĂe·ĂnLspeĂ ·Ă
1
VinDC
)
1
NNpsĂ ·Ă(Vout ) Vf)
(eq.Ă6)
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