*Contact factory for AVX SRC9000 Space Level SCD details.
For RoHS compliant products,
please select correct termination style.
TECHNICAL SPECIFICATIONS
Technical Data:
Capacitance Range:
Capacitance Tolerance:
Rated Voltage (V
R
)
Category Voltage (V
C
)
Surge Voltage (V
S
)
Surge Voltage (V
S
)
Temperature Range:
Unless otherwise specified, all technical data relate to an ambient
0.10 μF to 100 μF
±5%; ±10%; ±20%
85°C:
4
6
10
15
20
25
35
125°C:
2.7
4
6.7
10
13.3
16.7
23.3
85°C:
5.3
8
13.3
20
26.7
33.3
46.7
125°C:
3.5
5.3
8.7
13.3
17.8
22.2
31.1
-55°C to +125°C
temperature of 25°C
50
33.3
66.7
44.5
9
TAZ Series
CWR09 - MIL-PRF-55365/4
Established Reliability, COTS-Plus & Space Level
RATING & PART NUMBER REFERENCE
CWR09 P/N
AVX MIL & COTS-Plus P/N
TAZ R 334 * 004 C
TAZ R 225 * 004 C
TAZ A 225 * 004 C
TAZ B 475 * 004 C
TAZ C 685 * 004 C
TAZ D 106 * 004 C
TAZ E 156 * 004 C
TAZ F 336 * 004 C
TAZ G 686 * 004 C
TAZ H 107 * 004 C
TAZ A 155 * 006 C
TAZ B 335 * 006 C
TAZ C 475 * 006 C
TAZ D 685 * 006 C
TAZ E 106 * 006 C
TAZ F 226 * 006 C
TAZ G 476 * 006 C
TAZ H 686 * 006 C
TAZ R 334 * 010 C
TAZ R 474 * 010 C
TAZ R 105 * 010 C
TAZ A 105 * 010 C
TAZ B 225 * 010 C
TAZ C 335 * 010 C
TAZ D 475 * 010 C
TAZ E 685 * 010 C
TAZ F 156 * 010 C
TAZ G 336 * 010 C
TAZ H 476 * 010 C
TAZ A 684 * 015 C
TAZ B 155 * 015 C
TAZ C 225 * 015 C
TAZ D 335 * 015 C
TAZ E 475 * 015 C
TAZ F 106 * 015 C
TAZ G 226 * 015 C
TAZ H 336 * 015 C
TAZ A 474 * 020 C
TAZ B 684 * 020 C
TAZ B 105 * 020 C
TAZ C 155 * 020 C
TAZ D 225 * 020 C
TAZ E 335 * 020 C
TAZ F 685 * 020 C
TAZ G 156 * 020 C
TAZ H 226 * 020 C
TAZ A 334 * 025 C
TAZ B 684 * 025 C
TAZ C 105 * 025 C
TAZ D 155 * 025 C
TAZ E 225 * 025 C
TAZ F 475 * 025 C
TAZ G 685 * 025 C
TAZ G 106 * 025 C
TAZ H 156 * 025 C
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
Parametric Specifications by Rating per MIL-PRF-55365/4
Cap
DC Rated
ESR
DCL max
DF Max
@ 120Hz Voltage @ 100kHz
+25ºC
+85ºC
+125ºC
+25ºC
+(85/125)ºC
μF
V
Ohms
AVX SRC9000 P/N
Case
(μA)
(μA)
(μA)
(%)
(%)
@ 25ºC
@ +85ºC @ +25ºC
R
0.33
4
45
1
10
12
6
8
R
2.2
4
12
1
10
12
6
8
TAZ A 225 * 004 C L @ 9 ^ ++ A
2.2
4
8
1
10
12
6
8
TAZ B 475 * 004 C L @ 9 ^ ++ B
4.7
4
8
1
10
12
6
8
TAZ C 685 * 004 C L @ 9 ^ ++ C
6.8
4
5.5
1
10
12
6
8
TAZ D 106 * 004 C L @ 9 ^ ++ D
10
4
4
1
10
12
8
8
TAZ E 156 * 004 C L @ 9 ^ ++ E
15
4
3.5
1
10
12
8
10
TAZ F 336 * 004 C L @ 9 ^ ++
F
33
4
2.2
2
20
24
8
10
TAZ G 686 * 004 C L @ 9 ^ ++ G
68
4
1.1
3
30
36
10
12
TAZ H 107 * 004 C L @ 9 ^ ++ H
100
4
0.9
4
40
48
10
12
TAZ A 155 * 006 C L @ 9 ^ ++ A
1.5
6
8
1
10
12
6
8
TAZ B 335 * 006 C L @ 9 ^ ++ B
3.3
6
8
1
10
12
6
8
TAZ C 475 * 006 C L @ 9 ^ ++ C
4.7
6
5.5
1
10
12
6
8
TAZ D 685 * 006 C L @ 9 ^ ++ D
6.8
6
4.5
1
10
12
6
8
TAZ E 106 * 006 C L @ 9 ^ ++ E
10
6
3.5
1
10
12
8
10
TAZ F 226 * 006 C L @ 9 ^ ++
F
22
6
2.2
2
20
24
8
10
TAZ G 476 * 006 C L @ 9 ^ ++ G
47
6
1.1
3
30
36
10
12
TAZ H 686 * 006 C L @ 9 ^ ++ H
68
6
0.9
4
40
48
10
12
R
0.33
10
50
1
10
12
6
8
R
0.47
10
50
1
10
12
6
8
R
1
10
10
1
10
12
6
8
TAZ A 105 * 010 C L @ 9 ^ ++ A
1
10
10
1
10
12
6
8
TAZ B 225 * 010 C L @ 9 ^ ++ B
2.2
10
8
1
10
12
6
8
TAZ C 335 * 010 C L @ 9 ^ ++ C
3.3
10
5.5
1
10
12
6
8
TAZ D 475 * 010 C L @ 9 ^ ++ D
4.7
10
4.5
1
10
12
6
8
TAZ E 685 * 010 C L @ 9 ^ ++ E
6.8
10
3.5
1
10
12
6
8
TAZ F 156 * 010 C L @ 9 ^ ++
F
15
10
2.5
2
20
24
8
8
TAZ G 336 * 010 C L @ 9 ^ ++ G
33
10
1.1
3
30
36
10
12
TAZ H 476 * 010 C L @ 9 ^ ++ H
47
10
0.9
5
50
60
10
12
TAZ A 684 * 015 C L @ 9 ^ ++ A
0.68
15
12
1
10
12
6
8
TAZ B 155 * 015 C L @ 9 ^ ++ B
1.5
15
8
1
10
12
6
8
TAZ C 225 * 015 C L @ 9 ^ ++ C
2.2
15
5.5
1
10
12
6
8
TAZ D 335 * 015 C L @ 9 ^ ++ D
3.3
15
5
1
10
12
6
8
TAZ E 475 * 015 C L @ 9 ^ ++ E
4.7
15
4
1
10
12
6
8
TAZ F 106 * 015 C L @ 9 ^ ++
F
10
15
2.5
2
20
24
6
8
TAZ G 226 * 015 C L @ 9 ^ ++ G
22
15
1.1
4
40
48
6
8
TAZ H 336 * 015 C L @ 9 ^ ++ H
33
15
0.9
5
50
60
8
8
TAZ A 474 * 020 C L @ 9 ^ ++ A
0.47
20
14
1
10
12
8
8
TAZ B 684 * 020 C L @ 9 ^ ++ B
0.68
20
10
1
10
12
6
8
TAZ B 105 * 020 C L @ 9 ^ ++ B
1
20
12
1
10
12
6
8
TAZ C 155 * 020 C L @ 9 ^ ++ C
1.5
20
6
1
10
12
6
8
TAZ D 225 * 020 C L @ 9 ^ ++ D
2.2
20
5
1
10
12
6
8
TAZ E 335 * 020 C L @ 9 ^ ++ E
3.3
20
4
1
10
12
6
8
TAZ F 685 * 020 C L @ 9 ^ ++
F
6.8
20
2.4
2
20
24
6
8
TAZ G 156 * 020 C L @ 9 ^ ++ G
15
20
1.1
3
30
36
6
8
TAZ H 226 * 020 C L @ 9 ^ ++ H
22
20
0.9
4
40
48
6
8
TAZ A 334 * 025 C L @ 9 ^ ++ A
0.33
25
15
1
10
12
6
8
TAZ B 684 * 025 C L @ 9 ^ ++ B
0.68
25
7.5
1
10
12
6
8
TAZ C 105 * 025 C L @ 9 ^ ++ C
1
25
6.5
1
10
12
6
8
TAZ D 155 * 025 C L @ 9 ^ ++ D
1.5
25
6.5
1
10
12
6
8
TAZ E 225 * 025 C L @ 9 ^ ++ E
2.2
25
3.5
1
10
12
6
8
TAZ F 475 * 025 C L @ 9 ^ ++
F
4.7
25
2.5
2
20
24
6
8
TAZ G 685 * 025 C L @ 9 ^ ++ G
6.8
25
1.2
2
20
24
6
8
TAZ G 106 * 025 C L @ 9 ^ ++ G
10
25
1.4
3
30
36
6
8
TAZ H 156 * 025 C L @ 9 ^ ++ H
15
25
1
4
40
48
6
8
-55ºC
(%)
8
8
8
8
8
10
12
12
12
12
8
8
8
8
12
12
12
12
8
8
8
8
8
8
8
8
10
12
12
8
8
8
8
8
8
8
10
10
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
25ºC
Dissipation
Ripple
A
W
(100kHz)
0.030
0.03
0.030
0.05
0.050
0.08
0.070
0.09
0.075
0.12
0.080
0.14
0.090
0.16
0.100
0.21
0.125
0.34
0.150
0.41
0.050
0.08
0.070
0.09
0.075
0.12
0.080
0.13
0.090
0.16
0.100
0.21
0.125
0.34
0.150
0.41
0.030
0.02
0.030
0.02
0.030
0.05
0.050
0.07
0.070
0.09
0.075
0.12
0.080
0.13
0.090
0.16
0.100
0.20
0.125
0.34
0.150
0.41
0.050
0.06
0.070
0.09
0.075
0.12
0.080
0.13
0.090
0.15
0.100
0.20
0.125
0.34
0.150
0.41
0.050
0.06
0.070
0.08
0.070
0.08
0.075
0.11
0.080
0.13
0.090
0.15
0.100
0.20
0.125
0.34
0.150
0.41
0.050
0.06
0.070
0.10
0.075
0.11
0.080
0.11
0.090
0.16
0.100
0.20
0.125
0.32
0.125
0.30
0.150
0.39
Power
Typical Ripple Data by Rating
85ºC
125ºC
25ºC
Ripple
Ripple
Ripple
A
A
V
(100kHz) (100kHz) (100kHz)
0.02
0.01
1.16
0.05
0.02
0.60
0.07
0.03
0.63
0.08
0.04
0.75
0.11
0.05
0.64
0.13
0.06
0.57
0.14
0.06
0.56
0.19
0.09
0.47
0.30
0.13
0.37
0.37
0.16
0.37
0.07
0.03
0.63
0.08
0.04
0.75
0.11
0.05
0.64
0.12
0.05
0.60
0.14
0.06
0.56
0.19
0.09
0.47
0.30
0.13
0.37
0.37
0.16
0.37
0.02
0.01
1.22
0.02
0.01
1.22
0.05
0.02
0.55
0.06
0.03
0.71
0.08
0.04
0.75
0.11
0.05
0.64
0.12
0.05
0.60
0.14
0.06
0.56
0.18
0.08
0.50
0.30
0.13
0.37
0.37
0.16
0.37
0.06
0.03
0.77
0.08
0.04
0.75
0.11
0.05
0.64
0.11
0.05
0.63
0.14
0.06
0.60
0.18
0.08
0.50
0.30
0.13
0.37
0.37
0.16
0.37
0.05
0.02
0.84
0.08
0.03
0.84
0.07
0.03
0.92
0.10
0.04
0.67
0.11
0.05
0.63
0.14
0.06
0.60
0.18
0.08
0.49
0.30
0.13
0.37
0.37
0.16
0.37
0.05
0.02
0.87
0.09
0.04
0.72
0.10
0.04
0.70
0.10
0.04
0.72
0.14
0.06
0.56
0.18
0.08
0.50
0.29
0.13
0.39
0.27
0.12
0.42
0.35
0.15
0.39
85ºC
Ripple
V
(100kHz)
1.05
0.54
0.57
0.67
0.58
0.51
0.51
0.42
0.33
0.33
0.57
0.67
0.58
0.54
0.51
0.42
0.33
0.33
1.10
1.10
0.49
0.64
0.67
0.58
0.54
0.51
0.45
0.33
0.33
0.70
0.67
0.58
0.57
0.54
0.45
0.33
0.33
0.75
0.75
0.82
0.60
0.57
0.54
0.44
0.33
0.33
0.78
0.65
0.63
0.65
0.51
0.45
0.35
0.38
0.35
125ºC
Ripple
V
(100kHz)
0.46
0.24
0.25
0.30
0.26
0.23
0.22
0.19
0.15
0.15
0.25
0.30
0.26
0.24
0.22
0.19
0.15
0.15
0.49
0.49
0.22
0.28
0.30
0.26
0.24
0.22
0.20
0.15
0.15
0.31
0.30
0.26
0.25
0.24
0.20
0.15
0.15
0.33
0.33
0.37
0.27
0.25
0.24
0.20
0.15
0.15
0.35
0.29
0.28
0.29
0.22
0.20
0.15
0.17
0.15
CWR09C^225*@+
CWR09C^475*@+
CWR09C^685*@+
CWR09C^106*@+
CWR09C^156*@+
CWR09C^336*@+
CWR09C^686*@+
CWR09C^107*@+
CWR09D^155*@+
CWR09D^335*@+
CWR09D^475*@+
CWR09D^685*@+
CWR09D^106*@+
CWR09D^226*@+
CWR09D^476*@+
CWR09D^686*@+
CWR09F^105*@+
CWR09F^225*@+
CWR09F^335*@+
CWR09F^475*@+
CWR09F^685*@+
CWR09F^156*@+
CWR09F^336*@+
CWR09F^476*@+
CWR09H^684*@+
CWR09H^155*@+
CWR09H^225*@+
CWR09H^335*@+
CWR09H^475*@+
CWR09H^106*@+
CWR09H^226*@+
CWR09H^336*@+
CWR09J^474*@+
CWR09J^684*@+
CWR09J^105*@+
CWR09J^155*@+
CWR09J^225*@+
CWR09J^335*@+
CWR09J^685*@+
CWR09J^156*@+
CWR09J^226*@+
CWR09K^334*@+
CWR09K^684*@+
CWR09K^105*@+
CWR09K^155*@+
CWR09K^225*@+
CWR09K^475*@+
CWR09K^685*@+
CWR09K^106*@+
CWR09K^156*@+
All technical data relates to an ambient temperature of +25°C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.2 volts. DCL is measured at rated voltage after 5 minutes.
NOTE: AVX reserves the right to supply a higher voltage rating or tighter tolerance part in the same case size, to the same reliability standards.
10
TAZ Series
CWR09 - MIL-PRF-55365/4
Established Reliability, COTS-Plus & Space Level
RATING & PART NUMBER REFERENCE
CWR09 P/N
CWR09M^224*@+
CWR09M^474*@+
CWR09M^684*@+
CWR09M^105*@+
CWR09M^155*@+
CWR09M^335*@+
CWR09M^475*@+
CWR09M^685*@+
CWR09N^104*@+
CWR09N^154*@+
CWR09N^224*@+
CWR09N^334*@+
CWR09N^474*@+
CWR09N^684*@+
CWR09N^105*@+
CWR09N^155*@+
CWR09N^225*@+
CWR09N^335*@+
CWR09N^475*@+
AVX MIL & COTS-Plus p/n
TAZ A 224 * 035 C
TAZ B 474 * 035 C
TAZ C 684 * 035 C
TAZ D 105 * 035 C
TAZ E 155 * 035 C
TAZ F 335 * 035 C
TAZ G 475 * 035 C
TAZ H 685 * 035 C
TAZ A 104 * 050 C
TAZ A 154 * 050 C
TAZ B 224 * 050 C
TAZ B 334 * 050 C
TAZ C 474 * 050 C
TAZ D 684 * 050 C
TAZ E 105 * 050 C
TAZ F 155 * 050 C
TAZ F 225 * 050 C
TAZ G 335 * 050 C
TAZ H 475 * 050 C
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
# @ 0 ^ ++
Parametric Specifications by Rating per MIL-PRF-55365/4
Cap
DC Rated
ESR
DCL max
DF Max
@ 120Hz Voltage @ 100kHz
+25ºC
+85ºC
+125ºC
+25ºC
+(85/125)ºC
μF
V
Ohms
AVX SRC9000 P/N
Case
(μA)
(μA)
(μA)
(%)
(%)
@ 25ºC
@ +85ºC @ +25ºC
TAZ A 224 * 035 C L @ 9 ^ ++ A
0.22
35
18
1
10
12
6
8
TAZ B 474 * 035 C L @ 9 ^ ++ B
0.47
35
10
1
10
12
6
8
TAZ C 684 * 035 C L @ 9 ^ ++ C
0.68
35
8
1
10
12
6
8
TAZ D 105 * 035 C L @ 9 ^ ++ D
1
35
6.5
1
10
12
6
8
TAZ E 155 * 035 C L @ 9 ^ ++ E
1.5
35
4.5
1
10
12
6
8
TAZ F 335 * 035 C L @ 9 ^ ++
F
3.3
35
2.5
1
10
12
6
8
TAZ G 475 * 035 C L @ 9 ^ ++ G
4.7
35
1.5
2
20
24
6
8
TAZ H 685 * 035 C L @ 9 ^ ++ H
6.8
35
1.3
3
30
36
6
8
TAZ A 104 * 050 C L @ 9 ^ ++ A
0.1
50
22
1
10
12
6
8
TAZ A 154 * 050 C L @ 9 ^ ++ A
0.15
50
17
1
10
12
6
8
TAZ B 224 * 050 C L @ 9 ^ ++ B
0.22
50
14
1
10
12
6
8
TAZ B 334 * 050 C L @ 9 ^ ++ B
0.33
50
12
1
10
12
6
8
TAZ C 474 * 050 C L @ 9 ^ ++ C
0.47
50
8
1
10
12
6
8
TAZ D 684 * 050 C L @ 9 ^ ++ D
0.68
50
7
1
10
12
6
8
TAZ E 105 * 050 C L @ 9 ^ ++ E
1
50
6
1
10
12
6
8
TAZ F 155 * 050 C L @ 9 ^ ++
F
1.5
50
4
1
10
12
6
8
TAZ F 225 * 050 C L @ 9 ^ ++
F
2.2
50
2.5
2
20
24
6
8
TAZ G 335 * 050 C L @ 9 ^ ++ G
3.3
50
2
2
20
24
6
8
TAZ H 475 * 050 C L @ 9 ^ ++ H
4.7
50
1.5
3
30
36
6
8
-55ºC
(%)
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
25ºC
Dissipation
Ripple
A
W
(100kHz)
0.050
0.05
0.070
0.08
0.075
0.10
0.080
0.11
0.090
0.14
0.100
0.20
0.125
0.29
0.150
0.34
0.050
0.05
0.050
0.05
0.070
0.07
0.070
0.08
0.075
0.10
0.080
0.11
0.090
0.12
0.100
0.16
0.100
0.20
0.125
0.25
0.150
0.32
Power
Typical Ripple Data by Rating
85ºC
125ºC
25ºC
Ripple
Ripple
Ripple
A
A
V
(100kHz) (100kHz) (100kHz)
0.05
0.02
0.95
0.08
0.03
0.84
0.09
0.04
0.77
0.10
0.04
0.72
0.13
0.06
0.64
0.18
0.08
0.50
0.26
0.12
0.43
0.31
0.14
0.44
0.04
0.02
1.05
0.05
0.02
0.92
0.06
0.03
0.99
0.07
0.03
0.92
0.09
0.04
0.77
0.10
0.04
0.75
0.11
0.05
0.73
0.14
0.06
0.63
0.18
0.08
0.50
0.23
0.10
0.50
0.28
0.13
0.47
85ºC
Ripple
V
(100kHz)
0.85
0.75
0.70
0.65
0.57
0.45
0.39
0.40
0.94
0.83
0.89
0.82
0.70
0.67
0.66
0.57
0.45
0.45
0.43
125ºC
Ripple
V
(100kHz)
0.38
0.33
0.31
0.29
0.25
0.20
0.17
0.18
0.42
0.37
0.40
0.37
0.31
0.30
0.29
0.25
0.20
0.20
0.19
All technical data relates to an ambient temperature of +25°C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.2 volts. DCL is measured at rated voltage after 5 minutes.
NOTE: AVX reserves the right to supply a higher voltage rating or tighter tolerance part in the same case size, to the same reliability standards.
11
TAZ Series
CWR19 - MIL-PRF-55365/11
Established Reliability, COTS-Plus & Space Level
The series is qualified to MIL-PRF-55365 Weibull
“B”, “C”, “D” and “T” levels, with all surge
options (“A”, “B” & “C”) available.
For Space Level applications, AVX SRC 9000
qualification is recommended (see ratings table
for part number availability).
There are four termination finishes available:
solder plated, fused solder plated, hot solder
dipped and gold plated (these are “H”, “K”, “C”
and “B” termination, respectively, per MIL-PRF-
55365). In addition, the molding compound has
been selected to meet the requirements of
UL94V-0 (Flame Retardancy) and outgassing
requirements of ASTM E-595.
For moisture sensitivity levels please refer to the
High Reliability Tantalum MSL section located in
the back of the High Reliability Tantalum Catalog.
An extended range of capacitor ratings beyond
CWR09 that is fully qualified to MIL-PRF-
55365/11, this series represents the most
flexible of surface mount form factors, offering
nine case sizes (the original A through H of
CWR09) and adds the new X case size.
The molded body / compliant termination
construction ensures no TCE mismatch with any
substrate. This construction is compatible with a
wide range of SMT board assembly processes
including wave or reflow solder, conductive
epoxy or compression bonding techniques. The
parts also carry full polarity and capacitance /
voltage marking.
The four smaller cases are characterized by their
low profile construction, with the A case being the
I heard that a moderator's account was hacked today, and a lot of spam posts were posted. The administrator is about to collapse from deleting the posts. Regarding this problem, I remember mentioning ...
I would like to ask experts, how can applications access physical addresses under WinCE 6.0? The memory mapping function that was available in WinCE 5.0 is not available in 6.0....
[i=s] This post was last edited by paulhyde on 2014-9-15 02:56 [/i] Using DS1302 to make an electronic clock, the clock is not accurate due to the error of the 32678K crystal oscillator. The accuracy ...
The input is a button, which is pressed for about 3 seconds to output a low level. 1. The button must be pressed for more than 3 seconds to output a low level, otherwise the output remains unchanged. ...
In the war without gunpowder between China and the United States,
ZTE
has become a new victim. The seven-year chip ban by the United States has pushed this communications giant to a life-or...[Details]
On April 20, the Photovoltaic Summit, guided by Jiangsu Renewable Energy Industry Association, hosted by Growatt, and supported by LONGi Solar Technology Co., Ltd. and Jiangsu Bigo New Energy Group...[Details]
1. Principle 1. Infrared emission protocol The infrared transmission protocol has been written in the previous article , so I will not repeat it here. 2. Timer counting and input capture A timer...[Details]
1. Usage scenarios In the first case, when using a common STM32 delay function, similar to HAL_Delay(time), since this function uses a loop to judge and delay, when executing this function, the ent...[Details]
China Energy Storage Network News:
The State Grid Corporation of China, this elephant, is planning to turn around and enter the emerging power service market.
The rallying cry for the tr...[Details]
When designing a product, if the application environment's requirements for power isolation are not considered, the product will be unstable due to improper design, and even high voltage may damage t...[Details]
China Energy Storage Network News:
On the 7th, Jurong Economic Development Zone signed a strategic cooperation framework agreement on comprehensive energy services with State Grid Jiangsu Int...[Details]
The implementation of CAN driver under embedded operating system Android requires not only adding CAN driver device in Linux kernel, but also implementing the call of Android HAL layer. Taking S5...[Details]
*This article is based on the author's report at the "Embedded System Association Theme Discussion (Total 22nd) - Current Situation and Development Prospects of Internet of Things Operating Systems...[Details]
In January, Android 7.0 Marshmallow surpassed Lollipop three years ago to become the second most used Android version in the world. According to
the latest data from
Google
, a snapshot of d...[Details]
What are your expectations and ideas
for
the future of
Xiaomi Mi Band
?
Xiaomi Mi Band’s
official Weibo shared many netizens’ thoughts on
the future direction and functions
of Xiao...[Details]
STM32 has two watchdogs: independent watchdog and window watchdog. This article mainly introduces the use of independent watchdog. Independent watchdog (IDWG): driven by an independent 40KHZ low-sp...[Details]
12864 LCD parallel port driver is more commonly used, but considering that sometimes the IO port of the microcontroller or MCU is limited, the serial driver method can be used. The following is ...[Details]
Suggestions & Announcements
京公网安备 11010802033920号
EEWORLD
