Download - Driving Transistors and Thyristors
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DRIVING TRANSISTORS AND THYRISTORS
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• Turn power switch from off-state to on-state
• Minimize turn-on time through active region where power dissipation is large
• Provide adequate drive power to keep power switch in on-state
• Turn power switch from on-state to off-state
• Minimize turn-off time through active region wherepower dissipation is large
• Provide bias to insure that power switch remains off
• Control power switch to protect it when overvoltages or overcurrents are sensed
• Signal processing circuits which generate the logic control signals not considered part of the drive circuit
• Drive circuit amplifies control signals to levels required to drive power switch
• Drive circuit has significant power capabilities compared to logic level signal processing circuits
• Provide electrical isolation when needed between power switch and logic level signal processing/control circuits
Functionality of Gate/Base Drive Circuits
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Drive Circuit Design Considerations
• Drive circuit topologies
• Output signal polarity - unipolar or bipolar• AC or DC coupled• Connected in shunt or series with power switch
• Output current magnitude• Large Ion shortens turn-on time but lengthens turn-off delay time• Large Ioff shortens turn-off time but lengthens turn-on delay time
• Provisions for power switch protection• Overcurrents• Blanking times for bridge circuit drives
• Waveshaping to improve switch performance• Controlled diB/dt for BJT turn-off• Anti-saturation diodes for BJT drives• Speedup capacitors• Front-porch/backporch currents
• Component layout to minimize stray inductance and shielding from switching noise
0 t
0 t
Unipolar
Bipolar
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Unipolar DC-coupled Drive Circuit - BJT Example
R1
R2
Qsw
VBB Vd
Qpnp
Vcontrol
Vreference
ComparatorIo
• Circuit operation• Vcontrol > Vreference - BJT at comparator output on
which puts Qpnp and Qsw on
• Vcontrol < Vreference - BJT at comparator output off
which turns Qpnp off and thus Qsw off
• Design procedure
• R2 = VBE,offIB,off
; IB,off based on desired turn-off t ime.
• Ipnp = IB,on + VBE,on
R2 ; IB,on value based on BJT beta and
value of Io.
• VBB = VCE,on(Qpnp) + R1 IC,pnp + VBE,on(Qsw)
• VBB = 8 to 10 V ; compromise between larger values which
minimize effects of VBE variations and smaller values
which minimize power dissipation in drive circuit
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R1
Qsw
VBB Vd
Vcontrol
Vreference
ComparatorIo
R 2
+
-
Vcontrol Vreference>
comparator output high and Q onsw
•
Vcontrol Vreference<
comparator output low and Q offsw
•
Unipolar DC-coupled Drive Circuits- MOSFET examples
R1
Qsw
VGG
Vd
Vcontrol
Vreference
Comparator
I o
+
-
RG
Vcontrol Vreference>
comparator output high putting Q on and thus Q onsw
•
npn
Vcontrol Vreference<
comparator output low putting Q on and thus Q offsw
•
pnp
Q sw
VGGVd
V control
I o
RG
IC buffer amp with totem pole output DS0026 or UC1706/07
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Bipolar DC-coupled Drive Circuit- BJT Example
Qsw
VBB+Vd
Vcontrol
Comparator Io
+
-
VBB-
CBB-
CBB+
RB
TB+
TB-
Df
• Vcontrol < Vreference - comparator output low, TB- on and Qsw off.
• Large reverse base current flows to minimize turn-off time and base-emitter of Qsw reversed biased to insure off-state.
• Vcontrol > Vreference - comparator output high, TB+ on and Qsw on.
• Large forward base current to minimize turn-on time and to insure saturation of Qsw for low on-state losses
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Bipolar DC-coupled Drive Circuit- MOSFET Example
Qsw
VGG+Vd
Vcontrol
Vreference
Comparator Io
+
-
VGG-
CGG-
CGG+
RG
TB+
TB-
Df
Qsw
Vd
Vcontrol
Io
RG
IC buffer amp with totem pole output DS0026 or UC1706/07
CGG-
GG+V
CGG+
VGG-
• Simple bipolar drive circuit with moderate (1 amp)output current capability
• Bipolar drive with substantial output current capability
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Methods of Control Signal Isolation
Logic level control ckts
Logic ground
Power switch reference node (BJT emitter, MOSFET source)
Input to remainder of isolated drive circuit
V BB+
Input to remainder of isolated drive circuit
Power switch reference node
Light- emitting diode
Photo-transistor
Control logic ground
Signal from control logic
Isolated dc supply
VBB+
BB-V
AC power in • Isolated dc power supplies
for drive circuits
• Opto-coupler isolation
• Transformer isolation
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GATE DRIVE DESIGN
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22
23
g
gg
g
ggg
gg
doff
V
VnR
VV
QQt
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Thyristor Gate Drive Circuit
Line Voltage
zero crossing detection
DC power supply for gate trigger circuit
Delay Angle Block
Pulse Amplifier
Input Control Signal
Control Logic Ground
gate pulse isolation transformers
gate pulse isolation transformers
1
23
4
Delay angle block is commercially available integrated circuit - TCA780 circuit family
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Thyristor Gate Drive Circuit (cont.)
Control of 3 & 4
Control of 1 & 2
Control voltage
Ramp
Transformer Line Voltage
Trigger signal
D fR G
TG
15 V
D1
Thyristor gate drive waveforms
Gate pulse amplifier
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GTO Gate Drive Circuit
Auxilliary power supply for gate drive circuit
TG3
Control Circuit
R1
R2
R 3
R4
R5
R6
R7
TG1
T G2
2 A
10 A pulse V
GG+
VGG-
L G
turn-off pulse
L
L
• Turn on TG1and TG2 to get large front-porch current
• Turn off TG1 after some specified time to reduce total gate current to back-porch value.
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