93
6
SQ
AVX Style
CB
Case Size
CA = *
CB = *
* See mechanical
dimensions
below
7
Voltage
Code
5 = 50V
1 = 100V
E = 150V
2 = 200V
V = 250V
9 = 300V
7 = 500V
M 100 J A
Failure Rate
Code
A = Not
Applicable
T1A
Microwave MLC’s
SQ A Case & B Case Ultra Low ESR MLC
FEATURES:
• Low ESR
• High Q
• High Self Resonance
• Capacitance Range 0.1 pF to 5100 pF
• 175ºC Capability SQCB
APPLICATIONS:
• RF Power Amplifiers
• Low Noise Amplifiers
• Filter Networks
• MRI Systems
HOW TO ORDER
Temperature
Coefficient Code
M = +90±20ppm/°C
A = 0±30ppm/°C
C = 15% (“J” Termination only)
Termination
Style Code
**1 = Pd/Ag
**7 = Ag/Ni/Au
J = Nickel Barrier
Sn/Pb (60/40)
**T = 100% Tin
**RoHS Compliant
Capacitance
Tolerance Code
B = ±.1 pF
C = ±.25 pF
D = ±.5 pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
N = ±30%
Capacitance
EIA Capacitance Code in pF.
First two digits = significant
figures or “R” for decimal
place.
Third digit = number of zeros
or after “R” significant figures.
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481 (equivalent to IEC 286 part 3).
—8mm carrier
—7" reel: SQCA/SQCB = 2000 pcs (500 piece reels SQCA SQCB)
WAFFLE PACK
SQCA 100 pcs
SQCB 80 pcs
Packaging Code
1A = 7" Reel Unmarked
6A = Waffle Pack Unmarked
ME = 7" Reel Marked
WE = Waffle Pack Unmarked
* Vertical T&R available
* 500 piece reels available
RoHS COMPLIANT
Pb: Free
Case Length (L) Width (W) Thickness (T) Band Width (bw)
SQCA* .055 + .015 - .010 .055±.015 .020/.057 .010 + .010 -.005
(1.40+ .381 - .254) (1.40±.381) (.508/1.45) (.254 +.254 -.127)
SQCB* .110 + .020 - .010 .110±.010 .030/.102 .015±.010
(2.79 +.508 -.254) (2.79±.254) (.762/2.59) (.381±.254)
MECHANICAL DIMENSIONS: inches (millimeters)
L
W
T
A
101J
bw
94
6
ELECTRICAL SPECIFICATIONS
M & A C
Temperature Coefficient (TCC) (M) +90 ± 20 PPM/ºC ( -55ºC to +125ºC) ±15% (-55ºC to 125ºC)
(M) +90 ± 30 PPM/ºC ( +125ºC to +175ºC)*
(A) 0 ± 30 PPM/ºC
Capacitance Range (M) 0.1 pF to 1000 pF 0.001μF to 0.1μF
(A) 0.1 pF to 5100 pF
Operating Temperature 0.1 pF to 330 pF: from -55ºC to +175ºC* -55°C to +125°C
360 pF to 5100 pF: from -55ºC to +125ºC
Quality Factor (Q) Greater than 10,000 at 1 MHz 2.5% @ 1kHz
Insulation Resistance (IR) 0.2 pF to 470 pF 104Megohms min. @ 25ºC at rated WVDC
106Megohms min. @ 25ºC at rated WVDC 103Megohms min. @ 125ºC at rated WVDC
105Megohms min. @ 125ºC at rated WVDC
510 pF to 5100 pF
105Megohms min. @ 25ºC at rated WVDC
104Megohms min. @ 125ºC at rated WVDC
Working Voltage (WVDC) See Capacitance Values table See Capacitance Values table
Dielectric Withstanding Voltage (DWV) 250% of rated WVDC for 5 secs 250% of rated WVDC for 5 secs
(for 500V rated 150% of rated voltage)
Aging Effects None <3% per decade hour
Piezoelectric Effects None None
Capacitance Drift ± (0.02% or 0.02 pF), whichever is greater Not Applicable
Themal Shock Mil-STD-202, Method 107, Condition A
Moisture Resistance Mil-STD-202, Method 106
Low Voltage Humidity Mil-STD-202, Method 103, condition A, with 1.5 VDC
applied while subjected to an environment of 85ºC with
85% relative humidity for 240 hours
Life Test Mil-STD-202, Method 108, for 2000 hours at 125ºC
Shock Mil-STD-202, Method 213, Condition J
Vibration Mil-STD-202, Method 204, Condition B
Immersion Mil-STD-202, Method 104, Condition B
Salt Spray Mil-STD-202, Method 101, Condition B
Solderability Mil-STD-202, Method 208
Terminal Strength Mil-STD-202, Method 211
Temperature Cycling Mil-STD-202, Method 102, Condition C
Barometric Pressure Mil-STD-202, Method 105, Condition B
Resistance to Solder Heat Mil-STD-202, Method 210, Condition C
ENVIRONMENTAL CHARACTERISTICS
AVX SQ will meet and exceed the requirements of EIA-198, MIL-PRF-55681 and MIL-PRF-123
* 175 SQCB & SQLB only
Microwave MLC’s
SQ A Case & B Case Ultra Low ESR MLC
95
6
Microwave MLC’s
SQ Series Available Capacitance/Size/WVDC/T.C.
TABLE I: TC: M (+90±20PPM/°C)
Cap. pF Cap. Tol. WVDC
0.1 B 150
0.2 B 150
0.3 B,C 150
0.4 B,C 150
0.5 B, C, D 150
0.6 B, C, D 150
0.7 B, C, D 150
0.8 B, C, D 150
0.9 B, C, D 150
1.0 B, C, D 150
1.1 B, C, D 150
1.2 B, C, D 150
1.3 B, C, D 150
1.4 B, C, D 150
1.5 B, C, D 150
1.6 B, C, D 150
Cap. pF Cap. Tol. WVDC
6.2 B, C, D 150
6.8 B, C, J, K 150
7.5 B, C, J, K 150
8.2 B, C, J, K 150
9.1 B, C, J, K 150
10 F, G, J, K 150
11 F, G, J, K 150
12 F, G, J, K 150
13 F, G, J, K 150
15 F, G, J, K 150
16 F, G, J, K 150
18 F, G, J, K 150
20 F, G, J, K 150
22 F, G, J, K 150
24 F, G, J, K 150
Cap. pF Cap. Tol. WVDC
27 F, G, J, K 150
30 F, G, J, K 150
33 F, G, J, K 150
36 F, G, J, K 150
39 F, G, J, K 150
43 F, G, J, K 150
47 F, G, J, K 150
51 F, G, J, K 150
56 F, G, J, K 150
62 F, G, J, K 150
68 F, G, J, K 150
75 F, G, J, K 150
82 F, G, J, K 150
91 F, G, J, K 150
100 F, G, J, K 150
Cap. pF Cap. Tol. WVDC
1.7 B, C, D 150
1.8 B, C, D 150
1.9 B, C, D 150
2.0 B, C, D 150
2.2 B, C, D 150
2.4 B, C, D 150
2.7 B, C, D 150
3.0 B, C, D 150
3.3 B, C, D 150
3.6 B, C, D 150
3.9 B, C, D 150
4.3 B, C, D 150
4.7 B, C, D 150
5.1 B, C, D 150
5.6 B, C, D 150
TABLE II: TC: A (0±30PPM/°C)
Cap. pF Cap. Tol. WVDC
0.1 B 150
0.2 B 150
0.3 B,C 150
0.4 B,C 150
0.5 B, C, D 150
0.6 B, C, D 150
0.7 B, C, D 150
0.8 B, C, D 150
0.9 B, C, D 150
1.0 B, C, D 150
1.1 B, C, D 150
1.2 B, C, D 150
1.3 B, C, D 150
1.4 B, C, D 150
1.5 B, C, D 150
1.6 B, C, D 150
1.7 B, C, D 150
1.8 B, C, D 150
1.9 B, C, D 150
2.0 B, C, D 150
2.2 B, C, D 150
2.4 B, C, D 150
Cap. pF Cap. Tol. WVDC
2.7 B, C, D 150
3.0 B, C, D 150
3.3 B, C, D 150
3.6 B, C, D 150
3.9 B, C, D 150
4.3 B, C, D 150
4.7 B, C, D 150
5.1 B, C, D 150
5.6 B, C, D 150
6.2 B, C, D 150
6.8 B, C, J, K 150
7.5 B, C, J, K 150
8.2 B, C, J, K 150
9.1 B, C, J, K 150
10 F, G, J, K 150
11 F, G, J, K 150
12 F, G, J, K 150
13 F, G, J, K 150
15 F, G, J, K 150
16 F, G, J, K 150
18 F, G, J, K 150
Cap. pF Cap. Tol. WVDC
20 F, G, J, K 150
22 F, G, J, K 150
24 F, G, J, K 150
27 F, G, J, K 150
30 F, G, J, K 150
33 F, G, J, K 150
36 F, G, J, K 150
39 F, G, J, K 150
43 F, G, J, K 150
47 F, G, J, K 150
51 F, G, J, K 150
56 F, G, J, K 150
62 F, G, J, K 150
68 F, G, J, K 150
75 F, G, J, K 150
82 F, G, J, K 150
91 F, G, J, K 150
100 F, G, J, K 150
110 F, G, J, K 50
120 F, G, J, K 50
130 F, G, J, K 50
Cap. pF Cap. Tol. WVDC
150 F, G, J, K 50
160 F, G, J, K 50
180 F, G, J, K 50
200 F, G, J, K 50
220 F, G, J, K 50
240 F, G, J, K 50
270 F, G, J, K 50
300 F, G, J, K 50
330 F, G, J, K 50
360 F, G, J, K 50
390 F, G, J, K 50
430 F, G, J, K 50
470 F, G, J, K 50
510 F, G, J, K 50
560 F, G, J, K 50
620 F, G, J, K 50
680 F, G, J, K 50
750 F, G, J, K 50
820 F, G, J, K 50
910 F, G, J, K 50
1000 F, G, J, K 50
TABLE III: TC: C (±15%)
Cap. pF Cap. Tol. WVDC
1000 K, M, N 50
1200
K, M, N
50
1500
K, M, N
50
1800
K, M, N
50
2000
K, M, N
50
Cap. pF Cap. Tol. WVDC
2200
K, M, N
50
2700
K, M, N
50
3300
K, M, N
50
3900
K, M, N
50
4700
K, M, N
50
Cap. pF Cap. Tol. WVDC
5100
K, M, N
50
5600
K, M, N
50
6800
K, M, N
50
8200
K, M, N
50
10000
K, M, N
50
Case Size A
96
6
TABLE V: TC: A (0±30PPM/°C)
TABLE VI: TC: C (±15%)
Cap. pF Cap. Tol. WVDC
0.1 B 500
0.2 B 500
0.3 B,C 500
0.4 B,C 500
0.5 B, C, D 500
0.6 B, C, D 500
0.7 B, C, D 500
0.8 B, C, D 500
0.9 B, C, D 500
1.0 B, C, D 500
1.1 B, C, D 500
1.2 B, C, D 500
1.3 B, C, D 500
1.4 B, C, D 500
1.5 B, C, D 500
1.6 B, C, D 500
1.7 B, C, D 500
1.8 B, C, D 500
1.9 B, C, D 500
2.0 B, C, D 500
2.2 B, C, D 500
2.4 B, C, D 500
2.7 B, C, D 500
3.0 B, C, D 500
3.3 B, C, D 500
3.6 B, C, D 500
Cap. pF Cap. Tol. WVDC
3.9 B, C, D 500
4.3 B, C, D 500
4.7 B, C, D 500
5.1 B, C, D 500
5.6 B, C, D 500
6.2 B, C, D 500
6.8 B, C, J, K 500
7.5 B, C, J, K 500
8.2 B, C, J, K 500
9.1 B, C, J, K 500
10 F, G, J, K 500
11 F, G, J, K 500
12 F, G, J, K 500
13 F, G, J, K 500
15 F, G, J, K 500
16 F, G, J, K 500
18 F, G, J, K 500
20 F, G, J, K 500
22 F, G, J, K 500
24 F, G, J, K 500
27 F, G, J, K 500
30 F, G, J, K 500
33 F, G, J, K 500
36 F, G, J, K 500
39 F, G, J, K 500
43 F, G, J, K 500
Cap. pF Cap. Tol. WVDC
47 F, G, J, K 500
51 F, G, J, K 500
56 F, G, J, K 500
62 F, G, J, K 500
68 F, G, J, K 500
75 F, G, J, K 500
82 F, G, J, K 500
91 F, G, J, K 500
100 F, G, J, K 500
110 F, G, J, K 300
120 F, G, J, K 300
130 F, G, J, K 300
150 F, G, J, K 300
160 F, G, J, K 300
180 F, G, J, K 300
200 F, G, J, K 300
220 F, G, J, K 200
240 F, G, J, K 200
270 F, G, J, K 200
300 F, G, J, K 200
330 F, G, J, K 200
360 F, G, J, K 200
390 F, G, J, K 200
430 F, G, J, K 200
470 F, G, J, K 200
510 F, G, J, K 150
Cap. pF Cap. Tol. WVDC
560 F, G, J, K 150
620 F, G, J, K 150
680 F, G, J, K 150
750 F, G, J, K 150
820 F, G, J, K 150
910 F, G, J, K 150
1000 F, G, J, K 150
1100 F, G, J, K 50
1200 F, G, J, K 50
1300 F, G, J, K 50
1500 F, G, J, K 50
1600 F, G, J, K 50
1800 F, G, J, K 50
2000 F, G, J, K 50
2200 F, G, J, K 50
2400 F, G, J, K 50
2700 F, G, J, K 50
3000 F, G, J, K 50
3300 F, G, J, K 50
3600 F, G, J, K 50
3900 F, G, J, K 50
4300 F, G, J, K 50
4700 F, G, J, K 50
5000 F, G, J, K 50
5100 F, G, J, K 50
TABLE IV: TC: M (+90±20PPM/°C)
Cap. pF Cap. Tol. WVDC
0.1 B 500
0.2 B 500
0.3 B,C 500
0.4 B,C 500
0.5 B, C, D 500
0.6 B, C, D 500
0.7 B, C, D 500
0.8 B, C, D 500
0.9 B, C, D 500
1.0 B, C, D 500
1.1 B, C, D 500
1.2 B, C, D 500
1.3 B, C, D 500
1.4 B, C, D 500
1.5 B, C, D 500
1.6 B, C, D 500
1.7 B, C, D 500
1.8 B, C, D 500
1.9 B, C, D 500
2.0 B, C, D 500
2.2 B, C, D 500
2.4 B, C, D 500
Cap. pF Cap. Tol. WVDC
2.7 B, C, D 500
3.0 B, C, D 500
3.3 B, C, D 500
3.6 B, C, D 500
3.9 B, C, D 500
4.3 B, C, D 500
4.7 B, C, D 500
5.1 B, C, D 500
5.6 B, C, D 500
6.2 B, C, D 500
6.8 B, C, J, K 500
7.5 B, C, J, K 500
8.2 B, C, J, K 500
9.1 B, C, J, K 500
10 F, G, J, K 500
11 F, G, J, K 500
12 F, G, J, K 500
13 F, G, J, K 500
15 F, G, J, K 500
16 F, G, J, K 500
18 F, G, J, K 500
Cap. pF Cap. Tol. WVDC
20 F, G, J, K 500
22 F, G, J, K 500
24 F, G, J, K 500
27 F, G, J, K 500
30 F, G, J, K 500
33 F, G, J, K 500
36 F, G, J, K 500
39 F, G, J, K 500
43 F, G, J, K 500
47 F, G, J, K 500
51 F, G, J, K 500
56 F, G, J, K 500
62 F, G, J, K 500
68 F, G, J, K 500
75 F, G, J, K 500
82 F, G, J, K 500
91 F, G, J, K 500
100 F, G, J, K 500
110 F, G, J, K 300
120 F, G, J, K 300
130 F, G, J, K 300
Cap. pF Cap. Tol. WVDC
150 F, G, J, K 300
160 F, G, J, K 300
180 F, G, J, K 300
200 F, G, J, K 300
220 F, G, J, K 200
240 F, G, J, K 200
270 F, G, J, K 200
300 F, G, J, K 200
330 F, G, J, K 200
360 F, G, J, K 200
390 F, G, J, K 200
430 F, G, J, K 200
470 F, G, J, K 200
510 F, G, J, K 150
560 F, G, J, K 150
620 F, G, J, K 150
680 F, G, J, K 150
750 F, G, J, K 150
820 F, G, J, K 150
910 F, G, J, K 150
1000 F, G, J, K 150
Cap. pF Cap. Tol. WVDC
5000 K, M, N 50
6800 K, M, N 50
8200 K, M, N 50
10000 K, M, N 50
12000 K, M, N 50
Cap. pF Cap. Tol. WVDC
15000 K, M, N 50
18000 K, M, N 50
27000 K, M, N 50
33000 K, M, N 50
39000 K, M, N 50
Cap. pF Cap. Tol. WVDC
47000 K, M, N 50
68000 K, M, N 50
82000 K, M, N 50
100000 K, M, N 50
Microwave MLC’s
SQ Series Available Capacitance/Size/WVDC/T.C.
Case Size B
97
6
Microwave MLC’s
SQ A Case & B Case Ultra Low ESR MLC
Typical ESR SQCA
0.001
0.01
0.1
1
10
10 100 1000
Frequency (Mhz)
ESR (ohms)
1pF
4.7pF
10pF
22pF
100pF
Typical ESR SQCB
0.001
0.01
0.1
1
10 100 1000
Frequency (Mhz)
ESR (ohms)
4.7pF
10pF
22pF
100pF
1000pF
98
6
Microwave MLC’s
SQ A Case & B Case Ultra Low ESR MLC
SQCB Max Current
0.1
1
10
100
10 100 1000 10000
Frequency (Mhz)
Max Current (amps)
4.7pF
10pF
22pF
100pF
1000pF
SQCA Max Current
0.01
0.1
1
10
10 100 1000 10000
Frequency (Mhz)
Max Current (amps)
1pF
4.7pF
10pF
22pF
100pF
99
6
Microwave MLC’s
SQ A Case & B Case Ultra Low ESR MLC
Series Resonant Frequency
100
1000
10000
1 10 100 1000
Capacitance (pF)
SRF (Mhz)
SQCA
SQCB
A
D
C
B
Case A min B min C min D min
SQCA 0.082 (2.083) 0.051 (1.295) 0.032 (0.813) 0.130 (3.302)
SQCB 0.131 (3.327) 0.051 (1.295) 0.074 (1.880) 0.177 (4.496)
SQCS 0.038 (0.965) 0.043 (1.092) 0.025 (0.635) 0.112 (2.845)
SQCF 0.059 (1.499) 0.051 (1.295) 0.024 (0.610) 0.125 (3.175)
MOUNTING PAD DIMENSIONS: inches (millimeters)
SQCA & SQCB ENGINEERING KITS
PN Series Diel Term Range Different Values # per value
Kit SQ005 T SQCA P90 100% Tin .1 to 10pF 27 20
Kit SQ006 T RoHS 10 to 100pF 16
Kit SQ009 T SQCA C0G 100% Tin 100 to 1000pF 16 15
RoHS
Kit SQ010 T SQCB P90 100% Tin .1 to 22pF 32 15
Kit SQ011 T RoHS 10 to 1000pF 31
Kit SQ014 T SQCB C0G 100% Tin 470 to 5100pF 31 15
RoHS
Kit SQ001 SQCB P90 Sn/Pb 1 to 1000pF 46 10
Kit SQ002 SQCA P90 Sn/Pb .1 to 2pF 17 10
Kit SQ003 2.2 to 10pF 22
Tolerance per PF:
B from .1 to 3.3 J from 10 to 1800
C from 3.9 to 8.2 K above 1800
100
6
SQ
AVX Style
CS
Case Size
CS = 0603
CF = 0805
V
Voltage
Code
V = 250V
A 100 J A
Failure Rate
Code
A = Not
Applicable
T1A
Microwave MLC’s
SQCS (0603) SQCF (0805) Ultra Low ESR MLC
FEATURES:
• Low ESR
• High Q
• High Self Resonance
• Capacitance Range 0.1 pF to 240 pF
• EIA Size
APPLICATIONS:
• RF Power Amplifiers
• Low Noise Amplifiers
• Filter Networks
• Point to Point Radios
HOW TO ORDER
Temperature
Coefficient Code
A = 0±30ppm/°C
Termination
Style Code
**1 = Pd/Ag
**7 = Ag/Ni/Au
J = Nickel Barrier
Sn/Pb (60/40)
**T = 100% Tin
(Standard)
**RoHS Compliant
Capacitance
Tolerance Code
A = ±.05 pF
B = ±.1 pF
C = ±.25 pF
D = ±.5 pF
F = ±1%
G = ±2%
J = ±5%
Capacitance
EIA Capacitance Code in pF.
First two digits = significant
figures or “R” for decimal
place.
Third digit = number of zeros
or after “R” significant figures.
Packaging Code
1A = 7" Reel Unmarked
ME = 7" Reel Marked
* Vertical T&R available
* 500 piece reels available
Case Length (L) Width (W) Thickness (T) Band Width (bw)
SQCS .063±.006 .032±.006 .030 Max. .014±.006
(1.60±.152) (.813±.152) (.762) (.357±.152)
SQCF .079±.008 .049±.008 .045 Max. .014±.006
(2.01±.200) (1.24±.200) (1.14) (.357±.152)
MECHANICAL DIMENSIONS: inches (millimeters)
L
W
T
A
101J
bw
RoHS COMPLIANT
Pb: Free
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481 (equivalent to IEC 286 part 3).
—8mm carrier
—7" reel = 4000 pcs (500 piece options)
101
6
Microwave MLC’s
Low ESR MLC Capacitors
ELECTRICAL SPECIFICATIONS
Temperature Coefficient (TCC) (A) 0 ± 30 PPM/ºC
Operating Temperature -55ºC to +125ºC
Quality Factor (Q) Greater than 10,000 at 1 MHz
Insulation Resistance (IR) 0.1 pF to 240 pF
106Megohms min. @ 25ºC at rated WVDC
105Megohms min. @ 125ºC at rated WVDC
Working Voltage (WVDC) See Capacitance Values table
Dielectric Withstanding Voltage (DWV) 250% of rated WVDC for 5 secs
Aging Effects None
Piezoelectric Effects None
Capacitance Drift ± (0.02% or 0.02 pF), whichever is greater
Themal Shock Mil-STD-202, Method 107, Condition A
Moisture Resistance Mil-STD-202, Method 106
Low Voltage Humidity Mil-STD-202, Method 103, condition A, with 1.5 VDC
applied while subjected to an environment of 85ºC with
85% relative humidity for 240 hours
Life Test Mil-STD-202, Method 108, for 2000 hours at 125ºC
Shock Mil-STD-202, Method 213, Condition J
Vibration Mil-STD-202, Method 204, Condition B
Immersion Mil-STD-202, Method 104, Condition B
Salt Spray Mil-STD-202, Method 101, Condition B
Solderability Mil-STD-202, Method 208
Terminal Strength Mil-STD-202, Method 211
Temperature Cycling Mil-STD-202, Method 102, Condition C
Barometric Pressure Mil-STD-202, Method 105, Condition B
Resistance to Solder Heat Mil-STD-202, Method 210, Condition C
ENVIRONMENTAL CHARACTERISTICS
AVX SQ will meet and exceed the requirements of EIA-198, MIL-PRF-55681 and MIL-PRF-123
102
6
Cap. pF Cap. Tol. WVDC
0.1 A, B 250
0.2 A, B 250
0.3 A, B 250
0.4 A, B 250
0.5 A, B, C 250
0.6 A, B, C 250
0.7 A, B, C 250
0.8 A, B, C 250
0.9 A, B, C 250
1.0 A, B, C 250
1.1 A, B, C 250
1.2 A, B, C 250
1.3 A, B, C 250
1.4 A, B, C 250
1.5 A, B, C 250
1.6 A, B, C 250
1.7 A, B, C 250
1.8 A, B, C 250
1.9 A, B, C 250
2.0 A, B, C 250
2.2 A, B, C 250
Cap. pF Cap. Tol. WVDC
2.4 A, B, C 250
2.7 A, B, C 250
3.0 A, B, C 250
3.3 A, B, C 250
3.6 A, B, C 250
3.9 A, B, C 250
4.3 A, B, C 250
4.7 A, B, C 250
5.1 A, B, C 250
5.6 A, B, C 250
6.2 A, B, C 250
6.8 B, C, D 250
7.5 B, C, D 250
8.2 B, C, D 250
9.1 B, C, D 250
10 F, G, J 250
11 F, G, J 250
12 F, G, J 250
13 F, G, J 250
15 F, G, J 250
16 F, G, J 250
Cap. pF Cap. Tol. WVDC
18 F, G, J 250
20 F, G, J 250
22 F, G, J 250
24 F, G, J 250
27 F, G, J 250
30 F, G, J 250
33 F, G, J 250
36 F, G, J 250
39 F, G, J 250
43 F, G, J 250
47 F, G, J 250
51 F, G, J 250
56 F, G, J 250
62 F, G, J 250
68 F, G, J 250
75 F, G, J 250
82 F, G, J 250
91 F, G, J 250
100 F, G, J 250
Microwave MLC’s
SQ Series Available Capacitance/Size/WVDC/T.C.
TABLE I: TC: A (0±30PPM/°C) CASE SIZE S
Cap. pF Cap. Tol. WVDC
0.1 A, B 250
0.2 A, B 250
0.3 A, B 250
0.4 A, B 250
0.5 A, B, C 250
0.6 A, B, C 250
0.7 A, B, C 250
0.8 A, B, C 250
0.9 A, B, C 250
1.0 A, B, C 250
1.1 A, B, C 250
1.2 A, B, C 250
1.3 A, B, C 250
1.4 A, B, C 250
1.5 A, B, C 250
1.6 A, B, C 250
1.7 A, B, C 250
1.8 A, B, C 250
1.9 A, B, C 250
2.0 A, B, C 250
2.2 A, B, C 250
Cap. pF Cap. Tol. WVDC
2.4 A, B, C 250
2.7 A, B, C 250
3.0 A, B, C 250
3.3 A, B, C 250
3.6 A, B, C 250
3.9 A, B, C 250
4.3 A, B, C 250
4.7 A, B, C 250
5.1 A, B, C 250
5.6 A, B, C 250
6.2 A, B, C 250
6.8 B, C, D 250
7.5 B, C, D 250
8.2 B, C, D 250
9.1 B, C, D 250
10 F, G, J 250
11 F, G, J 250
12 F, G, J 250
13 F, G, J 250
15 F, G, J 250
16 F, G, J 250
Cap. pF Cap. Tol. WVDC
18 F, G, J 250
20 F, G, J 250
22 F, G, J 250
24 F, G, J 250
27 F, G, J 250
30 F, G, J 250
33 F, G, J 250
36 F, G, J 250
39 F, G, J 250
43 F, G, J 250
47 F, G, J 250
51 F, G, J 250
56 F, G, J 250
62 F, G, J 250
68 F, G, J 250
75 F, G, J 250
82 F, G, J 250
91 F, G, J 250
100 F, G, J 250
110 F, G, J 250
120 F, G, J 250
Cap. pF Cap. Tol. WVDC
150 F, G, J 250
180 F, G, J 250
200 F, G, J 250
220 F, G, J 250
240 F, G, J 250
TABLE II: TC: A (0±30PPM/°C) CASE SIZE F
103
6
Microwave MLC’s
SQCS (0603) SQCF (0805) Ultra Low ESR MLC
Typical ESR SQCS
0.01
0.1
1
10 100 1000
Frequency (Mhz)
ESR (ohms)
1pF
4.7pF
10pF
22pF
100pF
Typical ESR SQCF
0.001
0.01
0.1
1
10 100 1000
Frequency (Mhz)
ESR (ohms)
1pF
4.7pF
10pF
100pF
240pF
104
6
Microwave MLC’s
SQCS (0603) SQCF (0805) Ultra Low ESR MLC
Max Current SQCF
0.1
1
10
100
10 100 1000 10000
Frequency (Mhz)
ESR (ohms)
1pF
4.7pF
10pF
100pF
240pF
Max Current SQCS
0.1
1
10
100
10 100 1000 10000
Frequency (Mhz)
ESR (ohms)
1pF
4.7pF
10pF
22pF
100pF
105
6
Microwave MLC’s
SQCS (0603) SQCF (0805) Ultra Low ESR MLC
Series Resonant Frequency
100
1000
10000
100000
1 10 100 1000
Capacitance (pF)
SRF (Mhz)
SQCS
SQCF
A
D
C
B
Case A min B min C min D min
SQCA 0.082 (2.083) 0.051 (1.295) 0.032 (0.813) 0.130 (3.302)
SQCB 0.131 (3.327) 0.051 (1.295) 0.074 (1.880) 0.177 (4.496)
SQCS 0.038 (0.965) 0.043 (1.092) 0.025 (0.635) 0.112 (2.845)
SQCF 0.059 (1.499) 0.051 (1.295) 0.024 (0.610) 0.125 (3.175)
MOUNTING PAD DIMENSIONS: inches (millimeters)
SQCS & SQCF ENGINEERING KITS
PN Series Diel Term Range Different Values # per value
Kit SQ018 T SQCF C0G 100% Tin .1 to 22pF 32 20
Kit SQ019 T RoHS 10 to 240pF 23
Kit SQ015 T SQCS C0G 100%Tin .1 to 22pF 32
Kit SQ016 T RoHS 10 to 100pF 16 20
Tolerance per PF:
B from .1 to 3.3 J from 10 to 240
C from 3.9 to 8.2
118
6
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).
Sizes SQCA through SQCB, CDR11/12 through 13/14.
—8mm carrier
—7" reel: 0.040" thickness = 2000 pcs
0.075" thickness = 2000 pcs
—13" reel: 0.075" thickness = 10,000 pcs
REEL DIMENSIONS:millimeters (inches)
“U” Series - 402/0603/0805/1210 Size Chips
—8mm carrier
—7" reel: 0402 = 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
Tape A B* C D* N W1W2W3
Size(1) Max. Min. Min. Min. Max.
7.9 Min.
+1.0
8mm 8.4
-0.0
14.4 (.311)
+.060
(.331
-0.0
) (.567) 10.9 Max.
330 1.5 13.0±0.20 20.2 50 (.429)
(12.992) (.059) (.512±.008) (.795) (1.969)
11.9 Min.
+2.0
12mm 12.4
-0.0
18.4 (.469)
(.488
+.076
) (.724) 15.4 Max.
-0.0
(.607)
EMBOSSED CARRIER CONFIGURATION
8 & 12 MM TAPE ONLY
CONSTANT DIMENSIONS
Tape D0EP0P2TT1G1G2
Size Max.
+0.10
8mm 8.4
-0.0
1.75 ± 0.10 4.0 ± 0.10 2.0 ± 0.05 0.600 0.10 0.75 0.75
+.004
and (.059
-0.0
) (.069 ± .004) (.157 ± .004) (.079 ± .002) (.024) (.004) (.030) (.030)
12mm Max. Min. Min.
See See
Note 3 Note 4
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.
VARIABLE DIMENSIONS
Tape Size B1D1FP1RT2WA0B0K0
Max. Min. Min.
See Note 6 See Note 5 See Note 2
+0.3
8mm 4.55 1.0 3.5 ± 0.05 4.0 ± 0.10 25 2.5 Max 8.0
-0.1
See Note 1
+.012
(.179) (.039) (.138 ± .002) (.157 ± .004) (.984) (.098) (.315
-.004
8.2 1.5 5.5 ± 0.05 4.0 ± 0.10 30 6.5 Max 12.0 ± .30
12mm (.323) (.059) (.217 ± .002) (.157 ± .004) (1.181) (.256) (.472 ± .012) See Note 1
NOTES:
1. A0, B0, and K0are determined by the max. dimensions to the ends of the
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, B0, and K0) must be within
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).
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).
3. G1dimension 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.
4. G2dimension 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.
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.
6. B1dimension is a reference dimension for tape feeder clearance only.
)