CHERRY CS52843ED14

CS52843
CS52843
Current Mode PWM Control Circuit
Description
Features
before the output stage is enabled.
In the CS52843 turn on is at 8.4V
and turn off at 7.6V.
The CS52843 provides all the necessary features to implement offline fixed frequency current-mode
control with a minimum number
of external components.
Other features include low start-up
current, pulse-by-pulse current limiting, and a high-current totem pole
output for driving capacitive loads,
such as gate of a power MOSFET.
The output is low in the off state,
consistent with N-channel devices.
The CS52843 incorporates a new
precision temperature-controlled
oscillator to minimize variations in
frequency. An undervoltage lockout ensures that VREF is stabilized
Absolute Maximum Ratings
Supply Voltage (ICC<30mA) ..........................................................Self Limiting
Supply Voltage (Low Impedance Source)...................................................30V
Output Current ...............................................................................................±1A
Output Energy (Capacitive Load) .................................................................5µJ
Analog Inputs (VFB, VSENSE)...........................................................-0.3V to 5.5V
■ Optimized for Off-line
Control
■ Internally Temperature
Compensated Oscillator
■ VREF Stabilized before
Output Stage is Enabled
■ Very Low Start-up Current
300 µA (typ)
■ Pulse-by-pulse Current
Limiting
■ Improved Undervoltage
Lockout
■ Double Pulse Suppression
■ 2% 5 Volt Reference
■ High Current Totem Pole
Output
Error Amp Output Sink Current...............................................................10mA
Lead Temperature Soldering
Reflow (SMD styles only) ...........60 sec. max above 183°C, 230°C peak
Package Options
Block Diagram
8L SO Narrow
VCC Undervoltage Lock-out
VCC
34V
VCC Pwr
Set/
Reset
Gnd
5.0 Volt
Reference
VREF
8.4V/7.6V
VFB
Internal
Bias
+
OSC
R
2.50V
OUTPUT
ENABLE
R
VOUT
NOR
Oscillator
S
2R
Pwr Gnd
R
R
Sense
1
8
VREF
VFB
2
7
VCC
Sense
3
6
VOUT
OSC
4
5
Gnd
14L SO Narrow
Error
Amplifier
COMP
COMP
1V
PWM
Current
Sensing Latch
Comparator
COMP 1
14
VREF
NC 2
13
NC
VFB 3
12
VCC
NC
4
11
VCC Pwr
Sense 5
10
VOUT
NC 6
9
Pwr Gnd
OSC 7
8
Gnd
Cherry Semiconductor Corporation
2000 South County Trail, East Greenwich, RI 02818
Tel: (401)885-3600 Fax: (401)885-5786
Email: [email protected]
Web Site: www.cherry-semi.com
Rev. 12/23/97
1
A
®
Company
CS52843
Electrical Characteristics: -40 ≤ TA ≤ 85˚C; VCC = 15V (Note 1); RT = 680Ω; CT = .022µF for triangle mode,
RT = 10kΩ; CT = 3.3nF sawtooth mode unless otherwise stated.
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
■ Reference Section
Output Voltage
TJ = 25˚C, IREF = 1mA
5.00
5.10
V
Line Regulation
12 ≤ VCC ≤ 25V
4.90
6
20
mV
Load Regulation
1 ≤ IRE F≤ 20mA
6
25
mV
Temperature Stability
(Note 1)
0.4
mV/˚C
Total Output Variation
Line, Load, Temp. (Note 1)
Output Noise Voltage
10Hz ≤ f ≤ 10kHz, TJ = 25˚C (Note 1)
0.2
4.82
5.18
50
V
µV
Long Term Stability
TA = 125˚C, 1000 Hrs. (Note 1)
5
25
mV
Output Short Circuit
TA = 25˚C
-30
-100
-180
mA
Sawtooth Mode, TJ = 25˚C (Note 1)
47
52
57
kHz
Triangle Mode, TJ = 25˚C
44
52
60
kHz
0.2
1.0
%
■ Oscillator Section
Initial Accuracy
Voltage Stability
12 ≤ VCC ≤ 25V
Temperature Stability
Sawtooth Mode TMIN ≤ TA ≤ TMAX
Amplitude
Triangle Mode TMIN ≤ TA ≤ TMAX (Note 1)
VOSC (peak to peak)
Discharge Current
TJ = 25˚C
7.3
TMIN ≤ TA ≤ TMAX
6.8
2.42
5
%
8
1.7
%
V
8.3
9.3
mA
9.8
mA
■ Error Amp Section
Input Voltage
VCOMP = 2.5V
Input Bias Current
VFB = 0V
2.50
2.58
V
-0.3
-2.0
µA
AVOL
2 ≤ VOUT ≤ 4V
65
90
dB
Unity Gain Bandwidth
(Note 1)
0.7
1.0
MHz
PSRR
12 ≤ VCC ≤ 25V
60
70
dB
Output Sink Current
VFB = 2.7V, VCOMP = 1.1V
2
6
mA
Output Source Current
VFB = 2.3V, VCOMP = 5V
-0.5
-0.8
mA
VOUT HIGH
VFB = 2.3V, RL = 15kΩ to Gnd
5
6
VOUT LOW
VFB = 2.7V, RL = 15kΩ to VREF
V
0.7
1.1
V
V/V
■ Current Sense Section
Gain
(Notes 2 & 3)
2.85
3.00
3.15
Maximum Input Signal
VCOMP = 5V (Note 2)
0.9
1.0
1.1
PSRR
12 ≤ VCC ≤ 25V (Note 2)
70
V
dB
Input Bias Current
VSense=0V
-2
-10
µA
Delay to Output
TJ=25˚C (Note 1)
150
300
ns
Output Low Level
ISINK = 20mA
ISINK = 200mA
0.1
1.5
0.4
2.2
V
V
Output High Level
ISOURCE = 20mA
ISOURCE = 200mA
■ Output Section
13.0
12.0
2
13.5
13.5
V
V
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
Rise Time
TJ = 25˚C, CL = 1nF (Note 1)
50
150
ns
Fall Time
TJ=25˚C, CL=1nF (Note 1)
50
150
ns
Output Leakage
UVLO Active VOUT = 0
-.01
-10.0
µA
■ Total Standby Current
Start-Up Current
300
500
µA
Operating Supply Current
VFB=VSense=0V RT=10kΩ, CT=3.3nF
11
17
mA
VCC Zener Voltage
ICC=25mA
34
V
■ Undervoltage Lockout Section
Start Threshold
Min. Operating Voltage
Notes:
After Turn On
7.8
8.4
9.0
V
7.0
7.6
8.2
V
1.These parameters, although guaranteed, are not 100% tested in production.
2. Parameter measured at trip point of latch with VFB=0.
3. Gain defined as: A =
∆VCOMP
∆VSense
; 0 ≤ VSense ≤ 0.8V.
Package Pin Description
PACKAGE PIN #
PIN SYMBOL
FUNCTION
8L
SO Narrow
14L
SO Narrow
1
1
2
3
VFB
3
5
Sense
4
7
OSC
Oscillator timing network with Capacitor to Ground, resistor to VREF.
5
8
Gnd
Ground.
5
9
Pwr Gnd
6
10
VOUT
7
11
VCCPwr
7
12
VCC
Positive power supply.
8
14
VREF
Output of 5V internal reference.
2,4,6,13
NC
No Connection.
COMP
Error amp output, used to compensate error amplifier.
Error amp inverting input.
Noninverting input to Current Sense Comparator.
Output driver Ground.
Output drive pin.
Output driver positive supply.
3
CS52843
Electrical Characteristics: -40 ≤ TA ≤ 85˚C; VCC = 15V (Note 1); RT = 680Ω; CT = .022µF for triangle mode,
RT = 10kΩ; CT = 3.3nF sawtooth mode unless otherwise stated.
CS52843
Typical Performance Characteristics
100
900
90
800
RT =680Ω
80
DUTY CYCLE (%)
FREQ. (kHz)
700
600
500
RT =1.5kΩ
400
70
60
50
40
300
30
200
RT =10kΩ
20
100
10
.0005
.001
.002
.003
.005
.01
.02
.03 .04 .05
100
200
300 400 500 700
CT (µF)
1k
2k
3k 4k 5k
7k
10k
RT (Ω)
Oscillator Frequency vs CT
Oscillator Duty Cycle vs RT
Test Circuit Open Loop Laboratory Test Fixture
V REF
RT
2N2222
V CC
A
100kΩ
4.7kΩ
1kΩ
Error Amp
Adjust
4.7kΩ
V REF
COMP
V FB
0.1µF
V CC
0.1µF
5kΩ
V OUT
Sense
Sense
Adjust
OSC
1kΩ
1W
V OUT
Gnd
Gnd
CT
Circuit Description
VCC
Undervoltage Lockout
During Undervoltage Lockout (Figure 1), the output driver is biased to sink minor amounts of current. The output
should be shunted to ground with a resistor to prevent
activating the power switch with extraneous leakage currents.
ON/OFF Command
to reset of IC
VON =8.4V
VOFF = 7.6V
PWM Waveform
To generate the PWM waveform, the control voltage from
the error amplifier is compared to a current sense signal
which represents the peak output inductor current (Figure
2). An increase in VCC causes the inductor current slope to
increase, thus reducing the duty cycle. This is an inherent
feed-forward characteristic of current mode control, since
the control voltage does not have to change during
changes of input supply voltage.
ICC
<15mA
<500µA
VCC
VON
VOFF
Figure 1: Startup voltage for the CS52843.
4
CS52843
Circuit Description
When the power supply sees a sudden large output current increase, the control voltage will increase allowing the
duty cycle to momentarily increase. Since the duty cycle
tends to exceed the maximum allowed to prevent transformer saturation in some power supplies, the internal
oscillator waveform provides the maximum duty cycle
clamp as programmed by the selection of oscillator timing
components.
Setting the Oscillator
The times Tc and Td can be determined as follows:
t c = RTCT ln
t d = RTCT ln
(
(
VREF - VLOWER
VREF - VUPPER
)
VREF - IdRT - VLOWER
VREF - IdRT - VUPPER
VOSC
)
Substituting in typical values for the parameters in the
above formulas:
OSC
RESET
VREF = 5.0V, VUPPER = 2.7V, VLOWER = 1.0V, Id = 8.3mA,
Toggle
F/F Output
then
EA Output
tc ≈ 0.5534RTCT
Switch
Current
VCC
IO
td = RTCT ln
VO
(
2.3 - 0.0083 RT
4.0 - 0.0083 RT
)
For better accuracy RT should be ≥10kΩ.
Figure 2: Timing Diagram
Grounding
High peak currents associated with capacitive loads necessitate careful grounding techniques. Timing and bypass
capacitors should be connected close to Gnd in a single
point ground.
V REF
RT
OSC
The transistor and 5kΩ potentiometer are used to sample
the oscillator waveform and apply an adjustable ramp to
Sense.
CT
Gnd
Vupper
Vlower
tc
td
Sawtooth Mode
LARGE RT (≈10kΩ)
VOSC
Internal Clock
Triangular Mode
SMALL RT (≈700kΩ)
VREF
Internal Clock
Figure 3: Oscillator Timing Network and Parameters
5
CS52843
Package Specification
PACKAGE THERMAL DATA
PACKAGE DIMENSIONS IN mm (INCHES)
D
Lead Count
Metric
Max
Min
5.00
4.80
8.75
8.55
8L SO Narrow
14L SO Narrow
Thermal Data
English
Max
Min
.197
.189
.344
.337
8L SO Narrow 14L SO Narrow
RΘJC
typ
45
30
˚C/W
RΘJA
typ
165
125
˚C/W
Surface Mount Narrow Body (D); 150 mil wide
4.00 (.157)
3.80 (.150)
6.20 (.244)
5.80 (.228)
0.51 (.020)
0.33 (.013)
1.27 (.050) BSC
1.75 (.069) MAX
1.57 (.062)
1.37 (.054)
1.27 (.050)
0.40 (.016)
0.25 (.010)
0.19 (.008)
D
0.25 (0.10)
0.10 (.004)
REF: JEDEC MS-012
Ordering Information
Part Number
CS52843ED8
CS52843EDR8
CS52843ED14
CS52843EDR14
Rev. 12/23/97
Description
8L SO Narrow
8L SO Narrow (tape & reel)
14L SO Narrow
14L SO Narrow (tape & reel)
Cherry Semiconductor Corporation reserves the
right to make changes to the specifications without
notice. Please contact Cherry Semiconductor
Corporation for the latest available information.
6
© 1999 Cherry Semiconductor Corporation