STMICROELECTRONICS EVL6566A

EVL6566A-75WADP
19 V - 75 W laptop adapter with tracking boost
PFC pre-regulator, using the L6563 and the L6566A
Data Brief
Features
■
Universal input mains range: 90÷264Vac Frequency 45 ÷ 65 Hz
■
Output voltage: 19 V@4 A continuous
operation
■
Mains harmonics: Acc. to EN61000-3-2
Class-D
■
ST-by mains consumption: Less than 0.25 W
@265Vac
■
Overall efficiency: Better than 86%
■
EMI: According to EN55022-Class-B
■
Safety: According to EN60950
■
Low profile design: 25 mm maximum height
■
PCB single layer: single side, 70 µm, CEM-1,
78x174 mm, Mixed PTH/SMT
Description
In this data brief of the EVL6566A-75WADP demo
board, the main characteristics and features of a
75 W adapter wide-range input mains, powerfactor-corrected AC-DC adapter using the new
L6566A controller and the L6563 dedicated to the
PFC stage are described.
High efficiency and the very low standby input
consumption are highlighted in the following
figures and tables. The board is programmed for
working at fixed frequency (65 kHz) under
nominal condition (19 V at 4 A).
On the secondary side the TSM1014 with a
precise voltage reference and the optocoupler
SFH617A-4 to transfer the error amplifiers
information to the primary side have been used.
September 2007
Rev 1
For further information contact your local STMicroelectronics sales office.
1/8
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8
Efficiency
1
EVL6566A-75WADP
Efficiency
Table 1 below shows the efficiency with two different input voltages. The table begins with
the nominal load at 80 W on the output and it displays the efficiency at every power
decrease of 5 W.
Table 1.
Efficiency measurements
230 V-50 Hz
115 V-60 Hz
Pin
Pout
Eff.
Pin
Pout
Eff.
85.73
75.05
87.5%
87.24
75.06
86.0%
80.56
70.00
86.9%
80.73
70.00
86.7%
74.91
65.01
86.8%
74.34
65.01
87.4%
68.68
59.97
87.3%
68.95
60.00
87.0%
62.40
55.01
88.2%
63.80
55.02
86.2%
56.96
50.00
87.8%
58.03
50.04
86.2%
52.31
45.02
86.1%
51.80
45.05
87.0%
47.03
40.00
85.1%
45.45
40.00
88.0%
41.01
35.05
85.5%
40.53
35.05
86.5%
34.40
30.00
87.2%
35.15
30.00
85.3%
29.60
25.02
84.5%
29.00
25.02
86.3%
24.70
20.00
81.0%
23.07
20.00
86.7%
17.86
14.94
83.7%
18.36
15.05
82.0%
11.98
10.00
83.5%
11.88
10.00
84.2%
6.64
5.01
75.5%
6.10
5.05
82.8%
2.73
1.99
72.9%
2.53
1.99
78.7%
Above the 20 W power output, the efficiency is constant over 85%.
Figure 1.
2/8
Overall efficiency versus output power at nominal mains voltages
EVL6566A-75WADP
2
Full load
Full load
Figure 2 and Figure 3 below show the drain and gate fly-back waveforms and the relevant
switching frequency at full load.
Figure 2.
L6566A fly-back stage
waveforms at 115 V-60 Hz full load
CH1: drain 6566A
CH2: gate 6566A
Figure 3.
L6566A fly-back stage
waveforms at 230 V-50 Hz full load
CH1: drain 6566A
CH2: gate 6566A
3/8
Light load condition (fold back frequency)
3
EVL6566A-75WADP
Light load condition (fold back frequency)
To improve the efficiency at light load, a frequency shifting has been implemented on the
board. Thus, at decreasing load, the frequency also decreases. Figure 4 and Figure 5 below
show the drain and gate fly-back waveforms and the relevant switching frequency with a
load of 0.2 A.
Figure 4.
L6566A fly-back stage
waveforms at 115 V-60 Hz 0.2 A
Figure 5.
L6566A fly-back stage
waveforms at 230 V-50 Hz full load
CH1: drain 6566A
CH2: gate 6566A
CH1: drain 6566A
CH2: gate 6566A
Table 2 below shows the efficiency when we set the power input with 2.4 or 1.7 W in two
different voltage inputs with the fold back network plugged in.
Table 2.
Standby consumption
Light load condition
Vin = 230 V
4/8
Vin = 115 V
Pin
2.40
1.69
2.41
1.71
Pout
1.51
1.06
1.70
1.14
Efficiency
62.9%
62.7%
70.5%
66.7%
EVL6566A-75WADP
4
No-load
No-load
Table 3 gives the power consumption of the circuit during no-load operation. Figure 6 and
Figure 7 show the main waveforms under this condition.
Table 3.
Figure 6.
No-load consumption
Vin [Vrms]
Input power [W]
90
0.94
115
0.107
230
0.202
265
0.260
L6566A fly-back stage
waveforms at 115 V-60 Hz no-load
CH1: drain 6566A
CH2: Vcc 6566A
CH3: Vout adapter
Figure 7.
L6566A fly-back stage
waveforms at 230 V-50 Hz no-load
CH1: drain 6566A
CH2: Vcc 6566A
CH3: Vout adapter
5/8
90-264Vac
1
2
3
R18
51K
R15
100K
R12
3M3
R7
3M3
C3
470N
F1
FUSE 4A
R34
390K
R26
0R0
C19
2N2
C15
1u
C21
470N
R17
62K
C25
220p
C9
100N
C2
2N2
C1
2N2
R30
22K
7
6
5
4
3
2
1
C26
22N
PFC-OK
TBO
VFF
CS
MULT
RUN
ZCD
GND
GD
VCC
~
R33
0R0
PWM-LATCH
8
9
10
11
12
13
14
D2
GBU4J
PWM-STOP
U1
L6563
COMP
INV
C4
470N
L1
HF2422-203Y1R0-T01
R50
1K0
_
Q3
BC847C
R23
27R
C14
220N
C5
470N - 400V
C23
100N
8
6
D1
R62
100K
R4
68K
D3
STTH2L06
R27
0R33
R63
100K
C38
220p
R8
75K
C40
10N
R9
75K
R6
680K
R2
680K
R28
680K
C6
100u - 450V
R1
NTC 10R-S236
C33
47u - 50V
HS1
HEAT-SINK
Q2
STP9NK50ZFP
C32
100N
R64
150K
R25
470R
R24
100K
3
5
1N4005
L2
SRW25CQ-T05V102
8
7
6
5
4
3
2
1
R58
M57703
R59
12K
16
9
10
11
12
13
14
15
C39
100N
COMP
VREF
ZCD
MODE/SC
OSC
SS
VFF
AC_OK
OTP PROT
DIS
CS
VCC_PFC
VCC
GD
GND
N.C.
HV
U6
L6566A
R42
33K
C30
2N2
R19
3K0
R10
33K
R11
2M2
R5
2M2
R3
2M2
C41
10N
C34
47N
Q9
BC857C
R37
10K
R74
47K
R70
18K
R60
6K8
D16
LL4148
R72
0R0
R51
1K0
R35
2R7
R46
15R
D12
R43
LL4148 4R7
D11
STTH102A
R57
100R
R52
0R56
R47
100K
R53
0R56
HS2
HEAT-SINK
Q5
STP10NK80ZFP
D8
STTH108A
D4
1.5KE250A
R32
15K
R31
39K
9
8
5-6
2-3
C8
1N0
U3
SFH617A-4
T1
SRW32EC-T01H114
C24
2N2
10-11
15-16
HS3
HEAT-SINK
C7
2N2
R66
3R9
R54
47K
R36
1K8
R45
2K2
C35
220N
1000u - 25V
C16
R48
4K7
D7
C12
STPS20H100CFP
D5
STPS20H100CFP
R14
3R9
4
~
J1
MKDS 1,5/ 3-5,08
1
+
6/8
3
R49
24K
R39
56K
R76
4K7
R75
1K8
D17
BZV55-B18
R78
2K2
C44
1N
R68
220K
R67
12K
R22
R015
Q11
BC847C
Q10
BC847C
R77
100K
100u - 25V
R65
22K
4
3
2
1
U5
CV-
CC+
CC-
2
1
J2
VCC
GND
6
5
C43
2N2
TSM1014AIST
CV_OUT
7
8
19V@4A
MKDS 1,5/ 2-5,08
CC_OUT
C17
100N
V_REF
R69
1K0
C13
L3
TSL0706 - 1R5-4R3
C36
100N
R55
22R
Figure 8.
1000u - 25V
5
2
Schematic
EVL6566A-75WADP
Schematic
EVL6562A-TM-80W schematic
EVL6566A-75WADP
6
Revision history
Revision history
Table 4.
Document revision history
Date
Revision
28-Sep-2007
1
Changes
Initial release
7/8
EVL6566A-75WADP
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