AQ11EMR30CA13A [KYOCERA AVX]
Ceramic Capacitor, Multilayer, Ceramic, 150V, 83.33% +Tol, 83.33% -Tol, 90+/-20ppm/Cel TC, 0.0000003uF, Surface Mount, 0606, CHIP;型号: | AQ11EMR30CA13A |
厂家: | KYOCERA AVX |
描述: | Ceramic Capacitor, Multilayer, Ceramic, 150V, 83.33% +Tol, 83.33% -Tol, 90+/-20ppm/Cel TC, 0.0000003uF, Surface Mount, 0606, CHIP 电容器 |
文件: | 总10页 (文件大小:311K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Microwave MLC’s
AQ Series
These porcelain and ceraꢀic dielectric ꢀultilayer capacitor
(MLC) chips are best suited for Rꢁm Microwave applications
typically ranging froꢀ 10 MHz to 4±2 GHz± Characteristic is a
fine grained, high density, high purity dielectric ꢀaterial iꢀper-
vious to ꢀoisture with heavy internal palladiuꢀ electrodes±
These characteristics lend well to applications requiring:
1) high current carrying capabilities;
2) high quality factors;
3) very low equivalent series resistance;
4) very high series resonance;
5) excellent stability under stresses of changing volt-
age, frequency, tiꢀe and teꢀperature±
MECHANICAL DIMENSIONS: inches (millimeters)
Case
Length (L)
.055 .015
(1.40 .ꢀ31ꢁ
Width (W)
.055 .015
(1.40 .ꢀ31ꢁ
Thickness (T)
.020/.057
(.503/1.45ꢁ
Band Width (bw)
.010 + .010 -.005
(.254 +.254 -.127ꢁ
L
W
AQ11
A
T
101J
.055 + .015 - .010
(1.40+ .ꢀ31 - .254ꢁ
.055 .015
.020/.057
.010 + .010 -.005
(.254 +.254 -.127ꢁ
AQ12
AQ1ꢀ
AQ14
(1.40 .ꢀ31ꢁ
(.503/1.45ꢁ
.110 .020
(2.79 .503ꢁ
.110 .020
(2.79 .503ꢁ
.0ꢀ0/.102
(.762/2.59ꢁ
.015 .010
(.ꢀ31 .254ꢁ
bw
.110 + .020 - .010
(2.79 +.339 -.254ꢁ
.110 .010
(2.79 .503ꢁ
.0ꢀ0/.102
(.762/2.59ꢁ
.015 .010
(.ꢀ31 .254ꢁ
HOW TO ORDER
AQ
11
E
M
100
J
A
1
ME
Case Size
(See Chart)
Capacitance
Failure Rate
Code
Packaging*
Code
3A = 13" Reel
ME = 7" Reel
RE = 13" Reel
WE = Waffle
EIA Capacitance Code in pꢁ±
A = Not
ꢁirst two digits = significant
figures or “R” for deciꢀal
place±
AVX Style
AQ11, AQ12,
AQ13, AQ14
Voltage
Code
Applicable
5 = 50V
1 = 100V
E = 150V
2 = 200V
9 = 300V
7 = 500V
Third digit = nuꢀber of zeros
or after “R” significant figures±
Termination
Style Code
Pack
6
1 = PdmAg
(AQ11m13 only)
7 = AgmNimAu
(AQ11m13 only)
J = Nickel Barrier
SnmPb (60m40) -
(AQ12m14 only)
T = 100% Tin
Capacitance
Tolerance Code
B = ± ±1 pꢁ
C = ± ±25 pꢁ
D = ± ±5 pꢁ
ꢁ = ± 1%
Temperature
Coefficient Code
M = +90± 20ppꢀm/C (AQ11m12m13m14)
A = 0± 30ppꢀm/C (AQ11m12m13m14)
C = 15% (“J” Terꢀination only) (AQ12m14)
G = ± 2%
J = ± 5%
K = ± 10%
M = ± 20%
N = ± 30%
(AQ12m14 only)
PACKAGING
Standard Packaging = Waffle Pack (ꢀaxiꢀuꢀ quantity is 80)
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS431 (equivalent to IEC 236 part ꢀꢁ.
Sizes SQCA through SQCB, CDR11m12 through 13m14±
—8ꢀꢀ carrier
—7" reel: ≤0±040" thickness = 2000 pcs
≤0±075" thickness = 2000 pcs
—13" reel: ≤0±075" thickness = 10,000 pcs
106
Microwave MLC’s
AQ Series
ELECTRICAL SPECIFICATIONS
AQ11, AQ12, AQ13, AQ14
M & A
C
Teꢀperature Coefficient (TCC)
(M) +90 ± 20 PPMmꢂC ( -55ꢂC to +125ꢂC)
± 15% (-55ꢂC to 125ꢂC)
(M) +90 ± 30 PPMmꢂC ( +125ꢂC to +175ꢂC)
(A)
0 ± 30 PPMmꢂC
Capacitance Range
(M) 0±1 pꢁ to 1000 pꢁ
(A) 0±1 pꢁ to 5100 pꢁ
0±1 pꢁ to 330 pꢁ: froꢀ -55ꢂC to +175ꢂC
360 pꢁ to 5100 pꢁ: froꢀ -55ꢂC to +125ꢂC
0±001µꢁ to 0±1µꢁ
-55/C to +125/C
2±5% @ 1kHz
0±1 - 200 pꢁ
220 - 1000 pꢁ
1100 - 5100 pꢁ
Operating Teꢀperature
Quality ꢁactor (Q) M Dielectric A & B Case
A Dielectric B Case
Greater than 10,000 at 1 MHz
Greater than 10,000 at 1 MHz
Greater than 2,000 at 1 MHz
Greater than 2,000 at 1 KHz
A Dielectric A Case
Greater than 10,000 at 1 MHz
Greater than 2,000 at 1 MHz
0±1 - 100 pꢁ
110 - 1000 pꢁ
Insulation Resistance (IR)
0±1 pꢁ to 470 pꢁ
104 Megohꢀs ꢀin± @ 25ꢂC at rated WVDC
106 Megohꢀs ꢀin± @ 25ꢂC at rated WVDC
105 Megohꢀs ꢀin± @ 125ꢂC at rated WVDC
510 pꢁ to 5100 pꢁ
103 Megohꢀs ꢀin± @ 125ꢂC at rated WVDC
105 Megohꢀs ꢀin± @ 25ꢂC at rated WVDC
104 Megohꢀs ꢀin± @ 125ꢂC at rated WVDC
Working Voltage (WVDC)
Dielectric Withstanding Voltage (DWV)
See Capacitance Values table
250% of rated WVDC for 5 secs
(for 500V rated 150% of rated voltage)
See Capacitance Values table
250% of rated WVDC for 5 secs
Aging Effects
Piezoelectric Effects
Capacitance Drift
None
None
<3% per decade hour
None
Not Applicable
± (0±02% or 0±02 pꢁ), whichever is greater
ENVIRONMENTAL CHARACTERISTICS
AVX SQLB will ꢀeet and exceed the requireꢀents of EIA-198, MIL-PRꢁ-55681 and MIL-PRꢁ-123
Theꢀal Shock
Moisture Resistance
Low Voltage Huꢀidity
Mil-STD-202, Method 107, Condition A
Mil-STD-202, Method 106
Mil-STD-202, Method 103, condition A, with 1±5 VDC
applied while subjected to an environꢀent of 85ꢂC with
85% relative huꢀidity for 240 hours
6
Life Test
Shock
Vibration
Iꢀꢀersion
Salt Spray
Solderability
Mil-STD-202, Method 108, for 2000 hours at 125ꢂC
Mil-STD-202, Method 213, Condition J
Mil-STD-202, Method 204, Condition B
Mil-STD-202, Method 104, Condition B
Mil-STD-202, Method 101, Condition B
Mil-STD-202, Method 208
Terꢀinal Strength
Teꢀperature Cycling
Baroꢀetric Pressure
Resistance to Solder Heat
Mil-STD-202, Method 211
Mil-STD-202, Method 102, Condition C
Mil-STD-202, Method 105, Condition B
Mil-STD-202, Method 210, Condition C
107
Microwave MLC’s
AQ Series Available Capacitance/Size/WVDC/T.C.
TABLE I: TC: M (+90 20PPM/ꢀC)
CASE SIZE 11, 12, 13 & 14
DIMENSIONS: inches (millimeters)
Case
Length
Width
Thickness
Band Width
Avail. Term.
11
±055± ±015 (1±40± ±381)
±055± ±025 (1±40± ±635)
±110± ±020 (2±79± ±508)
±055± ±015 (1±40± ±381)
±055± ±015 (1±40± ±381)
±110± ±020 (2±79± ±508)
±020m±057 (±508m1±45) ±010 +±010 -±005 (±254 +±254 -±127)
±020m±057 (±508m1±45) ±010 +±010 -±005 (±254 +±254 -±127)
1 & 7
12
13
14
J
1 & 7
J
±030m±102 (±762m2±59)
±030m±102 (±762m2±59)
±015± ±010 (±381± ±254)
±015± ±010 (±381± ±254)
±110 +0±035 -0±020 (2±79 +±889 -±508) ±110± ±020 (2±79± ±508)
Case: AQ11, AQ12
Case: AQ13, AQ14
Cap. pF
Cap. Tol.
WVDC Cap. pF
Cap. Tol.
WVDC Cap. pF
Cap. Tol.
WVDC
0±1
0±2
0±3
0±4
0±5
0±6
0±7
0±8
0±9
1±0
B
150
150
150
150
150
150
150
150
150
150
0±1
0±2
0±3
0±4
0±5
0±6
0±7
0±8
0±9
1±0
B
500
500
500
500
500
500
500
500
500
500
100
110
120
130
150
160
180
200
220
240
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
500
300
300
300
300
300
300
300
200
200
B
B
B,C
B,C
B,C
B,C
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
1±1
1±2
1±3
1±4
1±5
1±6
1±7
1±8
1±9
2±0
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
150
150
150
150
150
150
150
150
150
150
1±1
1±2
1±3
1±4
1±5
1±6
1±7
1±8
1±9
2±0
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
500
500
500
500
500
500
500
500
500
500
270
300
330
360
390
430
470
510
560
620
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
200
200
200
200
200
200
200
150
150
150
2±2
2±4
2±7
3±0
3±3
3±6
3±9
4±3
4±7
5±1
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
150
150
150
150
150
150
150
150
150
150
2±2
2±4
2±7
3±0
3±3
3±6
3±9
4±3
4±7
5±1
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
500
500
500
500
500
500
500
500
500
500
680
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
150
150
150
150
150
750
820
910
1000
5±6
6±2
6±8
7±5
8±2
9±1
10
11
12
13
B, C, D
150
150
150
150
150
150
150
150
150
150
5±6
6±2
6±8
7±5
8±2
9±1
10
11
12
13
B, C, D
500
500
500
500
500
500
500
500
500
500
B, C, D
B, C, D
B, C, J, K, M
B, C, J, K, M
B, C, J, K, M
B, C, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
B, C, J, K, M
B, C, J, K, M
B, C, J, K, M
B, C, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
6
15
16
18
20
22
24
27
30
33
36
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
150
150
150
150
150
150
150
150
150
150
15
16
18
20
22
24
27
30
33
36
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
500
500
500
500
500
500
500
500
500
500
39
43
47
51
56
62
68
75
82
91
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
150
150
150
150
150
150
150
150
150
150
39
43
47
51
56
62
68
75
82
91
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
500
500
500
500
500
500
500
500
500
500
100
ꢁ, G, J, K, M
150
103
Microwave MLC’s
AQ Series Available Capacitance/Size/WVDC/T.C.
TABLE II: TC: A (0 30PPM/ꢀC)
CASE SIZE 11, 12, 13 & 14
DIMENSIONS: inches (millimeters)
Case
Length
Width
Thickness
Band Width
Avail. Term.
11
±055± ±015 (1±40± ±381)
±055± ±025 (1±40± ±635)
±110± ±020 (2±79± ±508)
±055± ±015 (1±40± ±381)
±055± ±015 (1±40± ±381)
±110± ±020 (2±79± ±508)
±020m±057 (±508m1±45) ±010 +±010 -±005 (±254 +±254 -±127)
±020m±057 (±508m1±45) ±010 +±010 -±005 (±254 +±254 -±127)
1 & 7
12
13
14
J
1 & 7
J
±030m±102 (±762m2±59)
±030m±102 (±762m2±59)
±015± ±010 (±381± ±254)
±015± ±010 (±381± ±254)
±110 +0±035 -0±020 (2±79 +±889 -±508) ±110± ±020 (2±79± ±508)
Case: AQ13, AQ14
Case: AQ11, AQ12
Cap. pF
Cap. Tol.
WVDC
Cap. pF
Cap. Tol.
WVDC
Cap. pF
Cap. Tol.
WVDC
Cap. pF
Cap. Tol.
WVDC
0±1
0±2
0±3
0±4
0±5
0±6
0±7
0±8
0±9
1±0
B
B
500
500
500
500
500
500
500
500
500
500
51
56
62
68
75
82
91
100
110
120
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
500
500
500
500
500
500
500
500
300
300
0±1
0±2
0±3
0±4
0±5
0±6
0±7
0±8
0±9
1±0
B
B
150
150
150
150
150
150
150
150
150
150
24
27
30
33
36
39
43
47
51
56
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
150
150
150
150
150
150
150
150
150
150
B,C
B,C
B,C
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B,C
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
1±1
1±2
1±3
1±4
1±5
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
500
500
500
500
500
130
150
160
180
200
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
300
300
300
300
300
1±1
1±2
1±3
1±4
1±5
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
150
150
150
150
150
62
68
75
82
91
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
150
150
150
150
150
1±6
1±7
1±8
1±9
2±0
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
500
500
500
500
500
220
240
270
300
330
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
200
200
200
200
200
1±6
1±7
1±8
1±9
2±0
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
150
150
150
150
150
100
110
120
130
150
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
150
50
50
50
50
2±2
2±4
2±7
3±0
3±3
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
500
500
500
500
500
360
390
430
470
510
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
200
200
200
200
150
2±2
2±4
2±7
3±0
3±3
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
150
150
150
150
150
160
180
200
220
240
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
50
50
50
50
50
3±6
3±9
4±3
4±7
5±1
5±6
6±2
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
560
620
680
750
820
910
1000
1100
1200
1300
1500
1600
1800
2000
2200
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
150
150
150
150
150
150
150
50
50
50
50
50
50
50
50
3±6
3±9
4±3
4±7
5±1
5±6
6±2
6±8
7±5
8±2
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, D
B, C, J, K, M 150
B, C, J, K, M 150
B, C, J, K, M 150
B, C, J, K, M 150
ꢁ, G, J, K, M 150
ꢁ, G, J, K, M 150
ꢁ, G, J, K, M 150
ꢁ, G, J, K, M 150
150
150
150
150
150
150
150
270
300
330
360
390
430
470
510
560
620
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
6±8 B, C, J, K, M
7±5 B, C, J, K, M
8±2 B, C, J, K, M
9±1 B, C, J, K, M
10
11
12
13
9±1
680
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
10
750
11
820
12
910
13
1000
15
16
18
20
22
24
27
30
33
36
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
500
500
500
500
500
500
500
500
500
500
2400
2700
3000
3300
3600
3900
4300
4700
5000
5100
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
50
50
50
50
50
50
50
50
50
50
15
16
18
20
22
ꢁ, G, J, K, M 150
ꢁ, G, J, K, M 150
ꢁ, G, J, K, M 150
ꢁ, G, J, K, M 150
ꢁ, G, J, K, M 150
6
39
43
47
ꢁ, G, J, K, M
ꢁ, G, J, K, M
ꢁ, G, J, K, M
500
500
500
TABLE III: TC: C ( 1ꢁ5)
CASE SIZE 12 & 14
Case: AQ12
Case: AQ14
Cap. pF Cap. Tol. WVDC
Cap. pF Cap. Tol. WVDC
Cap. pF Cap. Tol. WVDC
Cap. pF Cap. Tol. WVDC
Cap. pF Cap. Tol. WVDC
Cap. pF Cap. Tol. WVDC
1000
1200
1500
1800
2000
K, M, N
K, M, N
K, M, N
K, M, N
K, M, N
50
50
50
50
50
2200 K, M, N
2700 K, M, N
3300 K, M, N
3900 K, M, N
4700 K, M, N
50
50
50
50
50
5100
5600
6800
8200
10000
K, M, N
K, M, N
K, M, N
K, M, N
K, M, N
50
50
50
50
50
5000
6800
K, M, N
K, M, N
K, M, N
K, M, N
K, M, N
50
50
50
50
50
15000 K, M, N
18000 K, M, N
27000 K, M, N
33000 K, M, N
39000 K, M, N
50
50
50
50
50
47000 K, M, N
68000 K, M, N
50
50
8200
82000 K, M, N
100000 K, M, N
50
50
10000
12000
109
Microwave MLC’s
Performance Curves
TYPICAL Q vs. FREQUENCY
TYPICAL ESR vs. FREQUENCY
AQ11/12
AQ11/12
MIL-PRF-55681E - BG
STANDARD - M
MIL-PRF-55681E - BG
STANDARD - M
10000
1
1000
Q
ESR (ohms) 0.1
100
0.01
10
100
1000
100
1000
Frequency (MHz)
Frequency (MHz)
AVX CORPORATION
AVX CORPORATION
10 Picofarad
1 Picofarad
10 Picofarad
100 Picofarad
3.3 Picofarad
100 Picofarad
TYPICAL ESR vs. CAPACITANCE
AQ11/12
TYPICAL Q vs. CAPACITANCE
AQ11/12
MIL-PRF-55681E - BG
STANDARD - M
MIL-PRF-55681E - BG
STANDARD - M
1
10000
1000
100
6
ESR (ohms) 0.1
Q
0.01
10
1
10
100
1
10
100
Capacitance (pF)
Capacitance (pF)
AVX CORPORATION
500 MHz
AVX CORPORATION
500 MHz
250 MHz
1000 MHz
250 MHz
1000 MHz
113
Microwave MLC’s
Performance Curves
TYPICAL Q vs. FREQUENCY
AQ13/14
TYPICAL ESR vs. FREQUENCY
AQ13/14
MIL-PRF-55681E - BG
MIL-PRF-55681E - BG
STANDARD - M
STANDARD - M
10000
1
1000
Q
ESR (ohms) 0.1
100
0.01
10
100
1000
100
1000
Frequency (MHz)
Frequency (MHz)
AVX CORPORATION
AVX CORPORATION
15 Picofarad
1 Picofarad
10 Picofarad
47 Picofarad
330 Picofarad
1 Picofarad
100 Picofarad
TYPICAL Q vs. CAPACITANCE
AQ13/14
TYPICAL ESR vs. CAPACITANCE
AQ13/14
MIL-PRF-55681E - BG
STANDARD - M
MIL-PRF-55681E - BG
STANDARD - M
10000
1
6
1000
100
10
ESR (ohms) 0.1
Q
0.01
1
10
100
1
10
100
Capacitance (pF)
Capacitance (pF)
AVX CORPORATION
500 MHz
AVX CORPORATION
500 MHz
250 MHz
1000 MHz
250 MHz
1000 MHz
114
Microwave MLC’s
Performance Curves
TYPICAL ESR vs. FREQUENCY
AQ11/12
TYPICAL Q vs. FREQUENCY
AQ11/12
MIL-PRF-55681E - BP
STANDARD - A
MIL-PRF-55681E - BP
STANDARD - A
1
10000
1000
ESR (ohms) 0.1
Q
100
0.01
10
100
1000
100
1000
Frequency (MHz)
Frequency (MHz)
AVX CORPORATION
15 Picofarad
AVX CORPORATION
15 Picofarad
1 Picofarad
100 Picofarad
1 Picofarad
100 Picofarad
TYPICAL Q vs. CAPACITANCE
AQ11/12
TYPICAL ESR vs. CAPACITANCE
AQ11/12
MIL-PRF-55681E - BP
STANDARD - A
MIL-PRF-55681E - BP
STANDARD - A
10000
1000
100
1
6
ESR (ohms) 0.1
Q
10
0.01
1
10
100
1
10
100
Capacitance (pF)
Capacitance (pF)
AVX CORPORATION
500 MHz
AVX CORPORATION
500 MHz
250 MHz
1000 MHz
250 MHz
1000 MHz
115
Microwave MLC’s
Performance Curves
TYPICAL ESR vs. FREQUENCY
AQ13/14
TYPICAL Q vs. FREQUENCY
AQ13/14
MIL-PRF-55681E - BP
STANDARD - A
MIL-PRF-55681E - BP
STANDARD - A
1
10000
1000
ESR (ohms) 0.1
Q
100
0.01
10
100
1000
100
1000
Frequency (MHz)
Frequency (MHz)
AVX CORPORATION
47 Picofarad
AVX CORPORATION
15 Picofarad
15 Picofarad
100 Picofarad
2 Picofarad
100 Picofarad
TYPICAL Q vs. CAPACITANCE
AQ13/14
TYPICAL ESR vs. CAPACITANCE
AQ13/14
MIL-PRF-55681E - BP
STANDARD - A
MIL-PRF-55681E - BP
STANDARD - A
10000
1000
100
1
6
ESR (ohms) 0.1
Q
10
0.01
1
10
100
1
10
100
Capacitance (pF)
Capacitance (pF)
AVX CORPORATION
500 MHz
AVX CORPORATION
500 MHz
250 MHz
1000 MHz
250 MHz
1000 MHz
116
Microwave MLC’s
Performance Curves
TYPICAL RESONANT FREQUENCY vs. CAPACITANCE
AVX AQ11-14 (CDR11-14)
10
AQ11/12
AQ13/14
Parallel Resonant
Frequency
AQ11/12
AQ13/14
1.0
Series Resonant
Frequency
0.1
1.0
100
1000
10
Capacitance (pF)
TYPICAL RESONANT FREQUENCY vs. CAPACITANCE
AVX 0603
10
Parallel Resonant
Frequency
6
1.0
Series Resonant
Frequency
0.1
1
100
1000
10
Capacitance (pF)
117
Microwave MLC’s
Automatic Insertion Packaging
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481 (equivalent to IEC 286 part 3).
“U” Series - 402/0603/0805/1210 Size Chips
Sizes SQCA through SQCB, CDR11/12 through 13/14.
—8mm carrier
—8mm carrier
—7" reel: 0402 = 10,000 pcs
—7" reel: ≤0.040" thickness = 2000 pcs
≤0.075" thickness = 2000 pcs
—13" reel: ≤0.075" thickness = 10,000 pcs
0603 & 0805 ≤0.40" thickness = 4000 pcs
0805 . 0.040" thickness & 1210 = 2000 pcs
—13" reel: ≤0.075" thickness = 10,000 pcs
REEL DIMENSIONS: millimeters (inches)
Tape
A
B*
C
D*
N
W2
Max.
W3
W1
Size(1) Max. Min.
Min. Min.
7.9 Min.
(.311)
(.567) 10.9 Max.
(.429)
1.0
8mm
8.4 +-0.0
14.4
(.331+.060
)
-0.0
330
1.5 13.0 0.20 20.2
50
(12.992) (.059) (.512 .008) (.795) (1.969)
11.9 Min.
(.469)
) (.724) 15.4 Max.
(.607)
12mm
12.4 +-02..00
18.4
+.076
-0.0
(.488
Metric dimensions will govern.
English measurements rounded and for reference only.
(1) For tape sizes 16mm and 24mm (used with chip size 3640) consult EIA RS-481 latest revision.
EMBOSSED CARRIER CONFIGURATION
8 & 12 MM TAPE ONLY
CONSTANT DIMENSIONS
Tape
Size
8mm
and
D0
E
P0
P2
T
T1
G1
G2
Max.
8.4 -+00..010
1.75 0.10
4.0 0.10
2.0 0.05
0.600 0.10 0.75 0.75
+.004
-0.0
(.059
)
(.069 .004) (.157 .004) (.079 .002) (.024) (.004) (.030) (.030)
Max. Min. Min.
12mm
See
See
Note 3 Note 4
VARIABLE DIMENSIONS
Tape Size
B1
D1
F
P1
R
T2
W
A0B0K0
Max.
Min.
Min.
See Note 6
See Note 5
See Note 2
8.0 +-00..13
6
4.55
(.179)
1.0
(.039)
3.5 0.05
(.138 .002)
5.5 0.05
(.217 .002)
4.0 0.10
(.157 .004)
4.0 0.10
(.157 .004)
25
(.984)
30
(1.181)
2.5 Max
(.098)
6.5 Max
(.256)
8mm
See Note 1
See Note 1
(.315 +.012
)
-.004
8.2
(.323)
1.5
(.059)
12.0 .30
(.472 .012)
12mm
NOTES:
3. G dimension is the flat area from the edge of the sprocket hole to either the
outward deformation of the carrier tape between the embossed cavities or to
the edge of the cavity whichever is less.
1
1.
A
0,
B
0, and K are determined by the max. dimensions to the ends of the
0
terminals extending from the component body and/or the body dimensions of
the component. The clearance between the end of the terminals or body of the
component to the sides and depth of the cavity (A0,
B
0, and K ) must be within
0
4. G dimension is the flat area from the edge of the carrier tape opposite the
sprocket holes to either the outward deformation of the carrier tape between the
embossed cavity or to the edge of the cavity whichever is less.
2
0.05 mm (.002) min. and 0.50 mm (.020) max. The clearance allowed must also
prevent rotation of the component within the cavity of not more than 20 degrees
(see sketches C & D).
5. The embossment hole location shall be measured from the sprocket hole
controlling the location of the embossment. Dimensions of embossment
location and hole location shall be applied independent of each other.
2. Tape with components shall pass around radius “R” without damage. The
minimum trailer length (Note 2 Fig. 3) may require additional length to provide R
min. for 12mm embossed tape for reels with hub diameters approaching N min.
(Table 4).
6. B dimension is a reference dimension for tape feeder clearance only.
1
118
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