ISL6726EVAL1Z User Guide

Application Note 1628
Author: Jiong Huang
ISL6726EVAL1Z Current Mode Active Clamp Forward
with SR for Medium Power Applications
Description
Key Features
The ISL6726EVAL1Z board is a 48V input to 5V output DC/DC
converter that can output current up to 40A. This application
note includes the test setup, test report, schematics, layout,
and bill of materials (BOM).
• Precision Duty Cycle and Dead-Time Control
The ISL6726EVAL1Z board uses the ISL6726, an advanced
current mode PWM controller, to implement control of an
Active Clamp Forward. The circuit operates at fixed frequency
with peak current control mode. To get high efficiency, the
converter adopts a synchronous rectifier to replace the diode
rectifier.
• Programmable Oscillator Frequency Up to 1MHz
Figures 1 and 2 show top and bottom views of the
ISL6726EVAL1Z board. Actual size is 40x60x16mm.
• Programmable Slope Compensation
Applications
• Programmable Undervoltage Lock-out
• 180µA Start-up Current
• Adjustable Average and Peak Current Limit Protection
• Bi-directional Synchronization with 180° Out-of-Phase
• Adjustable Soft-Start, Soft-Stop
• Selectable Minimum Duty Cycle Clamp for Synchronous
Rectifier Applications
• Supports N-Channel and P-Channel Active Clamp FETs
• Input Voltage Dependent Duty Cycle Clamp
• Telecom and Datacom Power
• 35ns Control to Output Propagation Delay
• AC/DC Power Supplies
• Internal Over-Temperature Protection
• DC Transformers
• Bus Converters
FIGURE 1. TOP VIEW OF ISL6726EVAL1Z
(ACTUAL SIZE: 40x60x16mm)
December 20, 2012
AN1628.1
1
FIGURE 2. BOTTOM VIEW OF ISL6726EVAL1Z
(ACTUAL SIZE: 40x60x16mm)
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
Copyright Intersil Americas Inc. 2011, 2012. All Rights Reserved.
1-888-INTERSIL or 1-888-468-3774 | Intersil (and design) is a trademark owned by Intersil Corporation or one of its subsidiaries.
All other trademarks mentioned are the property of their respective owners.
Application Note 1628
Design Specifications
Test Setup
Design specifications for the ISL6726EVAL1Z board are shown in
Table 1.
Table 2 gives the pin descriptions for the ISL6726EVAL1Z board,
and Figure 3 shows the pin diagram.
TABLE 1. ISL6726EVAL1Z DESIGN SPECIFICATIONS
TABLE 2. ISL6726EVAL1Z PIN DESCRIPTIONS
CHARACTERISTICS
CONDITIONS
MIN
Frequency
TYP
MAX UNITS
220
Input Voltage
36
Output Voltage
75
5
Output Current
0
Efficiency
PIN
SYMBOL
kHz
P1
VIN
Input Voltage Positive
V
P2
VIN-RTN
Input Voltage Negative
P3
EN
V
40
A
92
%
Load Regulation
VIN = 48V
70
mV
Line Regulation
IO = 40A
30
mV
Ripple and Noise
IO = 40A
200
mV
Start-up Time
IO = 40A
40
ms
Dynamic (without
additional
capacitor)
25% - 50% - 25%
50% - 75% - 50%
0.2A/µs
±650
mV
OCP
Value
Hiccup delay time
OTP
Value
Hysteresis
Input UVP
Value
Hysteresis
44
VIN =
48V 1600
ms
VIN =
48V
105
ºC
20
ºC
IO =
40A
31
V
2
V
V
Output OVP
Value
IO =
40A
6.1
EN
Negative logical
signal
-0.2
0
Output Capacitor
IO = 40A
0
A
0.2
V
2200
µF
P4
P5
DESCRIPTION
Enable (Negative Logical)
VOUT-RTN Output Voltage Negative
VOUT
Output Voltage Positive
NOTES:
1. Enable Logic: EN pin must be connected to VIN-RTN before input
power is applied.
2. Input Voltage: Input voltage is 36V to 75V. Voltage applied to converter
cannot be higher than 75V.
3. Output Load: Load must be connected to VOUT and VOUT-RTN pins.
Maximum output current is 40A.
4. Cooling: Converter needs forced air cooling; recommended air speed
is 3m/s at full load.
VIN
VOUT
EN
VOUT-RTN
VIN-RTN
FIGURE 3. ISL6726EVAL1Z PIN DIAGRAM
2
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December 20, 2012
ISL6726EVAL1Z Schematic
3
Application Note 1628
AN1628.1
December 20, 2012
Application Note 1628
Silkscreens
Figures 4 and 5 show silkscreen images of the ISL6726EVAL1Z board top and bottom views.
FIGURE 4. ISL6726EVAL1Z TOP VIEW
FIGURE 5. ISL6726EVAL1Z BOTTOM VIEW
4
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December 20, 2012
Application Note 1628
Bill of Materials
PART NUMBER
REF DES
QTY
LMV431
U6, U9
2
NATIONAL SEMI
2N7002
Q3, Q13
2
ZETEX
BAT54A
D6, D21
2
ZETEX
BC857
Q7, Q5
2
PNP
Philips
BC847
Q4, Q6, Q8, Q9, Q15
5
NPN
Philips
P0770.224NL
L1
1
220µH
PULSE
PA1294.910NL
L2
1
0.91µH
PULSE
ISL6719
U1
1
INTERSIL
ISL6726
U4
1
INTERSIL
12103C225KAT2A
C2, C5, C7, C9
4
2.2µF/100V
AVX
1808N471K202N
C28
1
470pF/2kV
NOVACAP
1N4148W-V
D8, D10, D13, D25
4
VISHAY
76C100P
P1-P5
5
GENERIC
BZT52C7V5
D22
1
DIODES
BZT52C18
D11,D12,
2
DIODES
C1005C0G1H221J
C3, C37, C41, C44, C51
6
220pF
TDK
C1608X7R1C105K
C13, C14, C27, C29, C60, C17, C20, C24
8
1µF
TDK
C1608X7R1C474K
C30
1
0.47µF
TDK
C3216X7R2E104K
C19
1
0.1µF
TDK
BAS516
D1-D5, D7, D9, D14-D20, D23, D24
16
DIODES
EL5111
U2, U8
2
INTERSIL
ERTJ1VR682J
R27
1
6.8k
GRM31CR72A104KW03L
C12
1
0.10UF
MuRata
H1044-00101-50V5
C1, C25, C43, C59
4
100pF
GENERIC
H1044-00102-50V10
C6, C10, C11, C18, C22, C31
6
1000pF
GENERIC
H1044-00103-16V10
C42
1
0.01µF
GENERIC
H1044-00104-16V10
C4, C21, C26, C32, C36, C38, C40, C50, C23
9
0.1µF
GENERIC
H1044-00151-50V5
C16
1
150pF
GENERIC
H1044-00681-50V10
C8
1
680pF
GENERIC
H1044-OPEN
C15, C33
2
OPEN
GENERIC
H1045-00103-50V10
C34, C35
2
0.01µF
GENERIC
H1045-00224-16V10
C45
1
0.22µF
GENERIC
H1046-00104-100V10
C39, C57
2
0.1µF
GENERIC
H1046-00105-50V8020
C48
1
1µF
GENERIC
H1046-00475-10V20
C55
1
4.7µF
GENERIC
H1082-00107-6R3V20
C46, C47, C49, C52-C54, C56, C58
8
100µF
GENERIC
H2510-003R3-1/16W5
R20, R21, R52
2
3.3
GENERIC
H2510-00R00-1/16W
R28, R32, R50, R57, R60, R83-R85, R88, R89
10
0
GENERIC
H2510-01000-1/16W1
R67
1
100
GENERIC
5
VALUE
MANUFACTURER
PANASONIC
AN1628.1
December 20, 2012
Application Note 1628
Bill of Materials (Continued)
PART NUMBER
REF DES
QTY
VALUE
H2510-01002-1/16W5
R18, R24, R29-R31, R36, R44, R46, R73, R91, R94
11
10k
GENERIC
H2510-01003-1/16W1
R6, R35, R68
3
100k
GENERIC
H2510-01004-1/16W1
R34, R63
2
1M
GENERIC
H2510-01202-1/16W1
R7, R61
2
12k
GENERIC
H2510-01501-1/16W1
R17
1
1.5k
GENERIC
H2510-01803-1/16W5
R10
1
180k
GENERIC
H2510-02001-1/16W5
R13, R19, R23, R39, R41, R51, R64, R66
8
2k
GENERIC
H2510-02002-1/16W5
R3, R79
2
20k
GENERIC
H2510-02402-1/16W5
R11
1
24k
GENERIC
H2510-03002-1/16W1
R2
1
30k
GENERIC
H2510-03003-1/16W5
R15
1
300k
GENERIC
H2510-03301-1/16W5
R49
1
3.3k
GENERIC
H2510-03302-1/16W1
R59
1
33k
GENERIC
H2510-03901-1/16W5
R58
1
3.9k
GENERIC
H2510-04302-1/16W1
R9
1
43k
GENERIC
H2510-04303-1/16W1
R76
1
430k
GENERIC
H2510-05100-1/16W1
R1, R55, R69, R81
4
510
GENERIC
H2510-05101-1/16W1
R37, R47, R54, R72, R86
5
5.1k
GENERIC
H2510-05102-1/16W5
R22
1
51k
GENERIC
H2510-05103-1/16W1
R82
1
510k
GENERIC
H2510-06202-1/16W1
R4, R5
2
62k
GENERIC
H2510-06800-1/16W5
R38, R45
2
680
GENERIC
H2510-06801-1/16W5
R12
1
6.8k
GENERIC
H2510-07502-1/16W5
R42
1
75k
GENERIC
H2510-08201-1/16W1
R14
1
8.2k
GENERIC
H2510-09101-1/16W1
R25
1
9.1k
GENERIC
H2510-DNP-DNP-1
R26, R62, R65, R77, R80, R90
6
DNP
GENERIC
H2511-00010-1/10W1
R74, R75, R78, R87, R92
5
1
GENERIC
H2511-00100-1/16W1
R40
1
10
GENERIC
H2511-00R00-1/16W1
R16, R33
2
1
GENERIC
H2512-003R3-1/10W1
R43, R48, R53, R56
4
3.6
GENERIC
H2513-01000-1/8W1
R8
1
100
GENERIC
H2513-02201-1/8W1
R95, R96
2
2.2k
GENERIC
H2513-05111-1/8W1
R70, R71, R97, R99
4
5.1k
GENERIC
PA2001NL
T2
1
PULSE
PG1019NL
T3
1
PULSE
PA1005.050
T1
1
PULSE
PS2801-1-A
U3, U5, U7
3
NEC
SI7738
Q1
1
VISHAY
6
MANUFACTURER
AN1628.1
December 20, 2012
Application Note 1628
Bill of Materials (Continued)
PART NUMBER
REF DES
QTY
SIR438DP
Q10, Q11
2
VISHAY
NTMFS4852N
Q12, Q14, Q16
3
ONSEMI
Si3437DV
Q2
1
VISHAY
ISL89160
U10
1
INTERSIL
TOTAL
VALUE
MANUFACTURER
218
7
AN1628.1
December 20, 2012
Application Note 1628
Test Results
.
TABLE 4. EFFICIENCY AT VIN = 48V
Provided here are reports for the following tests of the
ISL6726EVAL1Z board: efficiency, load regulation, start-up and
shut-down, capacitive load start-up and shut-down (with 2200µF
extra capacitor), protection function, ripple and noise, and
dynamic response.
Efficiency Test
97
VIN = 48V
94 VIN = 36V
PERCENT (%)
91
88
VIN = 75V
VIN = 60V
85
82
VO (V)
IO (A)
PO (W)
η
VIN (V)
IIN (A)
PIN (W)
48.070
0.392
18.8434 5.0362
3.0057
15.1373 0.80332
48.060
0.714
34.3148
5.0395
6.0210
30.3428 0.88425
48.048
1.039
49.9219
5.0320
9.0150
45.3635 0.90869
48.039
1.359
65.2850 5.0260
11.975 60.1864 0.92190
48.029
1.690
81.1690
5.0240
15.018
75.4504 0.92955
48.020
2.022
97.0964
5.0230
18.020
90.5145 0.93221
48.010
2.355
113.064 5.0190
21.041
105.605 0.93403
48.001
2.690
129.120 5.0134
24.046
120.552 0.93364
47.990
3.028
145.314
5.0083
27.054
135.495 0.93243
47.980
3.369
161.645
5.0036
30.058 150.398 0.93043
47.970
3.715
178.209
4.9985
33.060 165.250 0.92729
79
47.959
4.064
194.905 4.9930
36.067 180.083 0.92395
76
47.945
4.538
217.574
40.065
4.9850
199.724 0.91796
73
TABLE 5. EFFICIENCY AT VIN = 60V
70
0
3
6
9
12
15
18
21
24
27
30
33
36
39
IOUT (A)
FIGURE 6. MAXIMUM EFFICIENCY ~93.4% @ 48V/21A,
OR 36V/20A
TABLE 3. EFFICIENCY AT VIN = 36V
η
VIN (V)
IIN (A)
PIN (W)
VO (V)
IO (A)
36.070
0.505
18.2154
5.0243
3.006
15.1066 0.82993
36.054
0.941
33.9268 5.0235
6.036
30.3218 0.89374
36.038
1.374
49.5162
5.0270
9.029
45.3888 0.91664
36.025
1.806
65.0612
5.0243
12.000
60.2916 0.92669
36.012
2.234
80.4508
5.0140
14.952
74.9693 0.93187
35.998
2.681
96.5106
5.0110
17.990
90.1479 0.93407
35.984
3.312
112.702
5.007
21.025
105.272 0.93408
35.970
3.587
129.024
5.006
24.051
120.399 0.93315
35.955
4.046
145.474
5.005
27.039
135.330 0.93027
35.940
4.510
162.089
5.0013
30.048
150.279 0.92714
35.925
4.979
178.871
4.998
33.045
165.159 0.92334
35.909
5.455
195.884
4.996
36.036 180.036 0.91910
35.888
6.106
219.132
4.990
40.000 199.600 0.91087
8
PO (W)
η
VIN (V)
IIN (A)
PIN (W)
VO (V)
IO (A)
60.069
0.326
19.5825
5.0410
3.001
15.1321 0.77273
60.061
0.583
35.0156
5.0470
6.007
30.3199 0.86590
60.051
0.845
50.7431
5.0400
9.015
45.4356 0.89540
60.043
1.106
66.4076
5.0360
12.020 60.5327 0.91153
60.036
1.370
82.2493
5.0385
15.024
75.6984 0.92035
60.028
1.635
98.1458 5.0365
18.031
90.8131 0.92529
60.021
1.901
114.100
5.0336
21.037
105.892 0.92806
60.013
2.169
130.168
5.0291
24.046
120.930 0.92903
60.006
2.438
146.295 5.0238
27.054
135.914 0.92904
59.997
2.709
162.532
5.0178
30.058 150.825 0.92797
59.989
2.983
178.947
5.0100
33.060
59.981
3.259
195.478
5.0040
36.065 180.469 0.92322
59.970
3.635
217.991
4.9970
40.065 200.205 0.91841
PO (W)
165.631 0.92558
AN1628.1
December 20, 2012
Application Note 1628
Load Regulation Test
TABLE 6. EFFICIENCY AT VIN = 75V
IIN (A)
PIN (W)
VO (V)
IO (A)
75.069
0.275
20.6440
5.0437
3.003
15.1498 0.73386
5.05
75.063
0.480
36.0302
5.0479
6.007
30.3253 0.84166
5.04
75.056
0.689
51.7136
5.0445
9.015
45.4762 0.87939
5.03
75.046
0.902
67.6915
5.0415
12.020 60.5988 0.89522
75.041
1.111
83.3706
5.0390
15.022 75.6959 0.90794
75.034
1.323
99.2700
5.0380
18.033 90.8503 0.91518
75.028
1.536
115.243
5.0360
21.041
75.022
1.751
131.364 5.0330
24.052 121.054 0.92152
75.016
1.967
147.556
27.052
5.0310
5.0280
105.962 0.91947
136.099 0.92235
75.009
2.184
163.820
75.003
2.403
180.232 5.0259
33.061
74.996
2.626
196.939
5.0210
36.065 181.082 0.91948
74.987
2.927
219.487
5.0150
40.061
5.06
VOUT (V)
PO (W)
η
VIN (V)
VIN = 75V
VIN = 60V
5.02
5.01
VIN = 48V
5.01
VIN = 48V
4.99
4.98
0
3
6
9
12
15
18
21
24
27
30
33
36
39
IOUT (A)
30.058 151.132 0.92255
166.161 0.92193
200.906 0.91534
Start-Up and Shut-Down Test
VOUT
FIGURE 7. START-UP (30ms) AT V IN = 36V @ IO = 0A
VOUT
FIGURE 9. START-UP (30ms) AT V IN = 36V @ IO = 40A
9
VOUT
FIGURE 8. SHUT-DOWN AT V IN = 36V @ IO = 0A
VOUT
FIGURE 10. SHUT-DOWN AT V IN = 36V @ I O = 40A
AN1628.1
December 20, 2012
Application Note 1628
Start-Up and Shut-Down Test (Continued)
VOUT
FIGURE 11. START-UP (30ms) AT V IN = 48V @ I O = 0A
VOUT
FIGURE 13. START-UP (30ms) AT V IN = 48V @ IO = 40A
VOUT
FIGURE 15. START-UP (30ms) AT VIN = 75V @ I O = 0A
10
VOUT
FIGURE 12. SHUT-DOWN AT V IN = 48V @ I O = 0A
VOUT
FIGURE 14. SHUT-DOWN AT V IN = 48V @ I O = 40A
VOUT
FIGURE 16. SHUT-DOWN AT V IN = 75V @ I O = 0A
AN1628.1
December 20, 2012
Application Note 1628
Start-Up and Shut-Down Test (Continued)
VOUT
FIGURE 17. START-UP (30ms) AT VIN = 75V @ I O = 40A
VOUT
FIGURE 18. SHUT-DOWN AT V IN = 75V @ IO = 40A
Captive Load Start-Up and Shut-Down Test (with 2200µF Extra Capacitor)
VOUT
FIGURE 19. START-UP AT V IN = 36V @ IO = 0A
VOUT
FIGURE 21. START-UP AT V IN = 36V @ I O = 40A
11
VOUT
FIGURE 20. SHUT-DOWN AT V IN = 36V @ IO = 0A
VOUT
FIGURE 22. SHUT-DOWN AT V IN = 36V @ IO = 40A
AN1628.1
December 20, 2012
Application Note 1628
Captive Load Start-Up and Shut-Down Test (with 2200µF Extra Capacitor) (Continued)
VOUT
FIGURE 23. START-UP AT V IN = 48V @ IO = 0A
VOUT
FIGURE 25. START-UP AT V IN = 48V @ IO = 40A
VOUT
FIGURE 27. START-UP AT V IN = 75V @ I O = 0A
12
VOUT
FIGURE 24. SHUT-DOWN AT V IN = 48V @ I O = 0A
VOUT
FIGURE 26. SHUT-DOWN AT V IN = 48V @ IO = 40A
VOUT
FIGURE 28. SHUT-DOWN AT V IN = 75V @ IO = 0A
AN1628.1
December 20, 2012
Application Note 1628
Captive Load Start-Up and Shut-Down Test (with 2200µF Extra Capacitor) (Continued)
VOUT
FIGURE 29. START-UP AT V IN = 75V @ IO = 40A
VOUT
FIGURE 30. SHUT-DOWN AT V IN = 75V @ IO = 40A
Protection Function Test
INPUT UV PROTECTION
VOUT
FIGURE 31. UVP @ 30.7V, I O = 0A
VOUT
FIGURE 33. UVP @ 30.9V, I O = 40A
13
VOUT
FIGURE 32. RECOVERY @ 33.1V, I O = 0A
VOUT
FIGURE 34. RECOVERY @ 33V, I O = 40A
AN1628.1
December 20, 2012
Application Note 1628
Protection Function Test (Continued)
OUTPUT OV PROTECTION POINT @ VO = 6.1V ± 4.5%
VO
FIGURE 35. OVP @ V IN = 36V, I O = 0A
VO
FIGURE 37. OVP @ V IN = 48V, I O = 0A
VO
FIGURE 39. OVP @ V IN = 75V, I O = 0A
14
VO
FIGURE 36. OVP @ V IN = 36V, I O = 40A
VO
FIGURE 38. OVP @ V IN = 48V, I O = 40A
VO
FIGURE 40. OVP @ V IN = 75V, I O = 40A
AN1628.1
December 20, 2012
Application Note 1628
Protection Function Test (Continued)
OCP POINT @IO = 44A ± 5%
VOUT
FIGURE 41. OCP = 45.2A @ VIN = 36V (LOAD MODE = CR;
YELLOW = VO, GREEN = IO)
VOUT
FIGURE 42. OCP = 44.6A @ VIN = 48V (LOAD MODE = CR;
YELLOW = VO, GREEN = IO)
6
5
VIN = 75V
VOUT
VOUT (V)
4
VIN = 48V
3
VIN = 36V
2
ENTER
INTO HICCUP
1
0
0
4
8
12
16
20
24
28
32
36
40
IOUT (A)
FIGURE 43. OCP = 44.3A @ VIN = 75V (LOAD MODE = CR;
YELLOW = VO, GREEN = IO)
15
FIGURE 44. OCP CHARACTERISTICS
AN1628.1
December 20, 2012
Application Note 1628
Protection Function Test (Continued)
SHORT TEST
VOUT
VOUT
FIGURE 45. I O OVERSHOOT, SHORT @ V IN = 36V, I O = 40A
FIGURE 46. IO OVERSHOOT, SHORT @ V IN = 48V, I O = 40A
VOUT
FIGURE 47. I O OVERSHOOT, SHORT @ V IN = 75V, IO = 40A
VOUT
VOUT
FIGURE 48. START-UP @ OUTPUT TERMINAL SHORT, VIN = 48V
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FIGURE 49. START-UP @ OUTPUT TERMINAL SHORT, V IN = 75V
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Application Note 1628
Ripple and Noise Test
VOUT
FIGURE 50. PEAK-TO-PEAK = 64mV @ V IN = 36V, IO = 0A
VOUT
FIGURE 52. PEAK-TO-PEAK = 75.3mV @ V IN = 48V, I O = 0A
VOUT
FIGURE 54. PEAK-TO-PEAK = 90mV @ V IN = 75V, IO = 0A
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VOUT
FIGURE 51. PEAK-TO-PEAK = 66mV @ V IN = 36V, I O = 40A
VOUT
FIGURE 53. PEAK-TO-PEAK = 77mV @ V IN = 48V, I O = 40A
VOUT
FIGURE 55. PEAK-TO-PEAK = 93mV @ V IN = 75V, I O = 40A
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December 20, 2012
Application Note 1628
Dynamic Response Test
VOUT
FIGURE 56. ±530mV @ 75%-50%-75% LOAD, 0.2A/µs, VIN = 36V
(YELLOW = VO, GREEN = IO)
VOUT
FIGURE 58. ±540mV @ 75%-50%-75% LOAD, 0.2A/µs, VIN = 48V
(YELLOW = VO, GREEN = IO)
VOUT
FIGURE 60. ±600mV @ 75%-50%-75% LOAD, 0.2A/µs, VIN = 75V
(YELLOW = VO, GREEN = IO)
VOUT
FIGURE 57. ±530mV @ 25%-50%-25% LOAD, 0.2A/µs, VIN = 36V
(YELLOW = VO, GREEN = IO)
VOUT
FIGURE 59. ±540mV @ 25%-50%-25% LOAD, 0.2A/µs, VIN = 48V
(YELLOW = VO, GREEN = IO)
VOUT
FIGURE 61. ±600mV @ 25%-50%-25% LOAD, 0.2A/µs, VIN = 75V
(YELLOW = VO, GREEN = IO)
Intersil Corporation reserves the right to make changes in circuit design, software and/or specifications at any time without notice. Accordingly, the reader is
cautioned to verify that the Application Note or Technical Brief is current before proceeding.
For information regarding Intersil Corporation and its products, see www.intersil.com
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December 20, 2012