FA7611CP(E) FA7611CP(E)
s Description
The FA7611CP(E) is a bipolar IC containing basic circuit necessary for PWM-type switching power supply control.
Bipolar IC For Switching Power Supply Control
s Dimensions, mm SSOP-16
16 9
s Features
• Low-voltage operation (VCC = 3.6 to 22V) • Predrivers: Totem-pole output or open-collector for CH1 and open-collector output for CH2 • Latch-mode short-circuit protection function (no malfunction due to electrical noise) • soft-start function • Undervoltage lock-out function • One capacitor shared for short circuit protection and for soft start to minimize the number of external discrete components
5.3 7.9±0.3
1
0.1±0.1
6.2
+0.1
8
0.2 –0.05
0~10˚
s Applications
• Battery power supply for portable equipment
0.6
0.3
0.65
DIP-16
16 9
1 0.81
19.4 1.5
8 3.1min 4.3max
0.2min
3.4
6.5
.0 0.3 –0
+0.1 5
7.6
2.54±0.25
0.5±0.1
0~15 ˚
0~1
5˚
s Block diagram
Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14
Pin symbol
Description Oscillator timing capacitor Capacitor for soft-start, shortcircuit protection and delay Dead time adjustment Non-inverting input to error amplifier Inverting input to error amplifier Error amplifier output Ground CH. 2 Output Power supply CH. 1 Current limiting resistor CH. 1 Output Error amplifier output Inverting input to error amplifier Non-inverting input to error amplifier Reference voltage (0.5V) Dead time adjustment Reference voltage output (2.5V)
CT CS DT2 IN2 (+) IN2 (–) FB2 GND OUT2 VCC OUT1R OUT1 FB1 IN1 (–) IN1 (+)
15 16
DT1 REF
1
2.1max
FA7611CP(E)
s Absolute maximum ratings
Item Supply voltage Reference voltage output current Output current Total power dissipation Operating temperature Storage temperature Symbol Rating 22 5 ±50 400 –20 to +85 –40 to +150 Unit V mA mA mW °C °C
s Recommended operating conditions
Item Supply voltage Feedback resistance Oscillator timing capacitor Oscillator timing resistance Oscillation frequency Symbol Min. 3.6 100 220 10 5 22,000 100 200 Max. 20 Unit V kΩ pF kΩ kHz
VCC IOR IO Pd Topr Tstg
VCC RNF CT RT fOSC
s Electrical characteristics (Ta = 25°C, VCC = 6V, RT = 33kΩ , CT = 1000pF) Reference voltage section
Item Output voltage Line regulation Load regulation Output voltage variation due to temperature change Symbol Test condition Min. Typ. 2.475 4 1 Max. 2.525 12 6 1 1 Unit V mV mV % %
VREF LINE LOAD VTC1 VTC2
IOR = 1mA 2.425 VCC = 3.6 to 20V, IOR =1mA IOR = 0.1 to 1mA
Ta = –20 to +25°C Ta = +25 to +85°C –1 –1
Oscillator section
Item Oscillation frequency Frequency variation 1 (due to supply voltage change) Frequency variation 2 (due to temperature change) Symbol Test condition Min. 95 Typ. 115 1 5 Max. 135 Unit kHz % %
fOSC fdV fdT
CT = 1000pF, RT = 33kΩ VCC = 3.6 to 20V
Ta = –20 to +85°C
Error amplifier section
Item Reference voltage Input bias current Open-loop voltage gain Unity-gain bandwidth Maximum output voltage (Pin 6 and Pin 12) Symbol Test condition Min. 0.484 Typ. 0.494 5 70 0.6 RNF = 100kΩ Max. 0.504 100 Unit V nA dB MHz V 200 40 85 200 mV
VB IB AV GB VOM+ VOM–
IOM+
VREF–0.2
RNF = 100kΩ VOM = 1V
Output source current (Pin 6 and Pin 12)
µA
PWM comparator section
Item Input threshold voltage (Pin 6 and Pin 12) Input threshold voltage (Pin 6 and Pin 12) Symbol Test condition Duty cycle = 0% Duty cycle = 50% Min. Typ. 0.85 1.1 Max. 0.95 Unit V V
VTH0 VTH50
2
FA7611CP(E)
Dead time adjustment circuit section
Item Input bias current (Pin 3 and Pin 15) Input threshold voltage (Pin 3 and Pin 15) Input threshold voltage (Pin 3 and Pin 15) Symbol Test condition Duty cycle = 0% Duty cycle = 50% Min. Typ. 80 0.22 0.46 Max. 300 0.32 Unit nA V V
IBDT VTH DT0 VTH DT50
Short-circuit protection circuit section
Item Input threshold voltage (Pin 6 and Pin 12) Charge current (Pin 2) Latch-mode threshold voltage (Pin 2) Symbol Test condition Min. 1.20 Pin 2 = 0V, Pin 6, Pin 12 = 2V 10 1.20 Typ. 1.50 30 1.50 Max. 1.80 50 1.80 Unit V
VTH PC ICHG VTH LA
µA
V
Undervoltage lockout circuit section
Item OFF-to-ON threshold voltage ON-to-OFF threshold voltage Voltage hysteresis Symbol Test condition Min. Typ. 2.65 2.60 50 Max. Unit V V mV
VTH ON VTH OFF VHYS
Output section
Item CH. 1 H-level output voltage (Pin 11) CH. 1 L-level output voltage (Pin 11) CH. 1 Output source current (Pin11) CH. 2 L-level output voltage (Pin 8) Symbol Test condition Min. 3.5 8 Typ. 4.0 0.25 11 1.0 1.5 0.65 Max. Unit V V mA V
V01H V01L ISOURCE1 V02L
RL = 10kΩ
Output sink current = 20mA
ROUT1 = 470Ω
(Pin 11) = 0V Output sink current = 20mA
Overall device
Item Supply current Operating-state supply current Symbol Test condition Latch mode Min. Typ. 2.0 3.5 Max. 3.0 6.0 Unit mA mA
ICC LA ICC AV
RL = ∞ Duty cycle = 50%
3
FA7611CP(E)
s Characteristic curves (Ta = 25°C)
Oscillation frequency (fOSC ) vs. timing capacitor capacitance (C T) Output duty cycle vs. CS terminal voltage (VCS )
Output duty cycle vs. DT terminal voltage (VDT)
Output duty cycle vs. FB terminal voltage (VFB)
CH-1 output source current (ISOURCE1) vs. supply voltage (VCC )
L-level output voltage (VO1L ) vs. CH. 1 output sink current (ISINK1 )
4
FA7611CP(E)
L-level output voltage (VO2L) vs. CH. 2 output sink current (ISINK2) Supply current (ICC) vs. supply voltage(VCC)
Operating-state supply current (ICCAV) vs. oscillation frequency (fOSC)
Error amplifie frequency (f) vs. valtage gain (AV) / phase (θ )
5
Phase θ [deg]
FA7611CP(E)
s Application circuit Flyback-transformer type and chopper type buck converter circuit
VCC 3.3k 63.5k + – C1
TR D10 + – C11
Flyback 24V
10V 1k 100k 22000p 22k Q1 0.01µ Rout1 + – C2 D12 – + C13 –10V D11 + – C12
VCC
1M 16 15 14 13 12 11 10 9 REF DT1 IN1(+) IN1(–) FB1 OUT1 OUT1R VCC
FA7611CP(E)
CT 1
CS 2
DT2 IN2(+)IN2(–) FB2 3 4 5 1M 6
GND OUT2 7 8 Q2 R21 L2 Buck 5V C20 + –
56k 1000p
4.7µ 330k
0.01µ
R20 D20
820k
1k
2.2k
20.07k
Chopper type buck converter and inverting converter circuit
3.3k
30.1k L1 Q1 Rout1 R11 D10 + – C10 Buck 5V
0.01µ 22000p VCC 16 15 REF DT1
1k
14 IN1(+)
13 IN1(–)
12 FB1
11 OUT1
10 OUT1R
9 VCC
+ – C1
VCC FA7611CP(E)
CT 1 56k
CS 2
DT2 3
IN2(+) 4
IN2(–) 5
FB2 6
GND 7
OUT2 8 R21 R20 Q2
+ – C2
330k
1000p
+ 4.7µ –
D20 47000p
Inverting –5V
L2
– + C20
820k
1k 100k 2.2k 5.02k 22k
Parts tolerances characteristics are not defined in the circuit design sample shown above. When designing an actual circuit for a product, you must determine parts tolerances and characteristics for safe and economical operation.
Please connect a capacitor, which the value is about 0.01 µF to 0.1µF, between VCC and REF terminals in order to prevent from irregular output pulse at start-up.
6
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