ALM-2812-TR1G [AVAGO]
2400MHz - 2500MHz RF/MICROWAVE NARROW BAND LOW POWER AMPLIFIER, 3 X 3 MM, 1.10 MM HEIGHT, ROHS COMPLIANT PACKAGE-12;![ALM-2812-TR1G](http://pdffile.icpdf.com/pdf2/p00219/img/icpdf/ALM-2812-BLK_1271640_icpdf.jpg)
型号: | ALM-2812-TR1G |
厂家: | ![]() |
描述: | 2400MHz - 2500MHz RF/MICROWAVE NARROW BAND LOW POWER AMPLIFIER, 3 X 3 MM, 1.10 MM HEIGHT, ROHS COMPLIANT PACKAGE-12 放大器 射频 微波 功率放大器 |
文件: | 总10页 (文件大小:121K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ALM-2812
Dual-Band (2.4-2.5) GHz & (4.9-6) GHz
WLAN Low-Noise Amplifier
Data Sheet
Description
Features
Avago Technologies’ ALM-2812 is a dual-band LNA
designed for WLAN applications in the (2.4 - 2.5)GHz
and (4.9-6)GHz frequency ranges. The LNA uses Avago
ꢀ Advanced GaAs E-pHEMT
ꢀ Low Noise: 0.8dB Typ for 2.4 - 2.5 GHz
Technologies’ proprietary GaAs Enhancement-mode ꢀ Low Noise: 1.4dB Typ for 4.9 - 6 GHz
pHEMT process to achieve high-frequency wideband
operation with very low noise figures.
ꢀ Wide Supply Voltage: 2 to 3.6V
ꢀ 50 Ohm matched Input & Output
The ALM-2812 has two individual LNAs housed in a
ꢀ High Input P1dB and IIP3
ꢀ Power Shutdown Function
ꢀ RoHS Compliant
3mm x 3mm package, each one switcheable using a
single CMOS-compatible pin. All matching components
are inside the module. Only one external low frequency
bypass capacitor is required for proper operation,
making it suitable for use in ultra-miniature WLAN cards
and access points.
2
ꢀ Small Footprint: 3x3mm
ꢀ Low Profile: 1.1mm max.
ꢀ Minimal External Components
Typical Specifications (25°C):
Surface Mount
3
3.0 x 3.0 x 1.1 mm
MCOB
Note: Package marking provides
orientation and identification
At 2.45 GHz, 3.3V 15mA
ꢀ Gain = 16.7 dB
ꢀ NF = 0.8 dB
O
CMLY
“C” = Product Code
“ML”= Manufacturing Location
WWDD
“Y” = Year
“WW”= Work Week
“DD” = Day
“XXXX” = Lot Number
ꢀ IIP3 = 6.1 dBm
ꢀ IP1dB = -5.8 dBm
XXXX
Top View
At 5.5 GHz, 3.3V 23.4mA
ꢀ Gain = 23.2dB
Pin Configuration
ꢀ NF = 1.4 dB
LNA I/O’s :
ꢀ IIP3 = -2.2 dBm
ꢀ IP1dB = -12.8dBm
1. RF_OUT_52
3. RF_OUT_24
5. VCC2
6. LNA_ON_24
7. RF_IN_24
9.RF_IN_52
10. LNA_ON_52
11. VCC1
2, 4, 8 & 12.GND
Bottom view
Absolute Maximum Ratings [1]
Notes:
1. Operation of this device above any one of these
parameters may cause permanent damage.
2. Assuming DC quiescent conditions.
3. Board (package belly) temperature TB is 25*C.
Derate 33.4mW/*C for TB > 144 *C.
4. Channel-to-boardthermalresistancemeasured
using 150*C Liquid Crystal Measurement
method.
Parameter
Symbol
Units
V
Absolute Maximum
Drain – Source Voltage[2]
2G Drain Current [2]
5G Drain Current [2]
VDS
3.6
IDS_2G
IDS_5G
mA
mA
W
30
45
Total Power Dissipation [3] Pdiss
0.2
RF Input Power
Pin max. dBm
5
Channel Temperature
Storage Temperature
Thermal Resistance [4]
TCH
*C
150
TSTG
ꢁch_b
*C
-65 to 150
29.9
*C/W
[5,6]
Product Consistency Distribution Charts
8000
6000
4000
2000
0
10000
Stdev = 0.3
Stdev = 0.9
8000
6000
+3 Std
- 3 Std
+3 Std
4000
2000
0
0
0.3 0.6 0.9 1.2 1.5
15
16
17
18
19
Figure 1. Gain @ 2.45GHz; LSL = 15dB, Nominal = 16.7dB, USL = 18.5dB
Figure 2. NF @ 2.45GHz; Nominal = 0.8dB, USL = 1.5dB
6000
8000
Stdev = 0.9
5000
Stdev = 0.5
6000
4000
+3 Std
-3 Std
+3 Std
-3 Std
3000
2000
1000
0
4000
2000
0
10 12 14 16 18 20 22
20 21 22 23 24 25 26
Figure 3. Ids @ 2.45GHz; LSL = 11mA, Nominal = 15mA, USL = 21mA
Figure 4. Gain @ 5.5GHz; LSL = 21dB, Nominal = 23.2dB, USL = 25dB
8000
8000
Stdev = 0.1
Stdev = 1.5
6000
6000
+3 Std
-3 Std
-3 Std
4000
4000
2000
0
2000
0
0.8 1.1 1.4 1.7
2
2.3
16
20
24
28
32
Figure 5. NF @ 5.5GHz; Nominal = 1.4dB, USL = 1.9dB
Figure 6. Ids @ 5.5GHz; LSL = 19mA, Nominal = 23.4mA, USL = 31mA
Note:
5. Distribution data sample size is 18K samples taken from 3 different wafers and 3 different lots. Future wafers allocated to this product may have
nominal values anywhere between the upper and lower limits.
6. Measurements are made on production test board, which represents a trade-off between optimal Gain, NF, IIP3, IP1dB and VSWR. Circuit losses
have been de-embedded from actual measurements.
2
[7,8]
Electrical Specifications
TA = 25 *C, DC bias for RF parameter is Vds = 3.3V (unless otherwise specified)
2.4 to 2.5 GHz Band
Production
Min [7,8]
2.45GHz (Typ.)
25 Deg
Production
Max [7,8]
Parameter and Test Condition
Gain
Symbol
G
Units
dB
15
-
16.7
0.8
18.5
1.5
Noise Figure
NF
dB
Gain Flatness
Gf
dB
0.1
Input 1dB Compressed Power
Input 3rd Order Intercept Point
Input Return Loss
Output Return Loss
IP1dB
IIP3
S11
S22
dBm
dBm
dB
- 5.8
6.1
- 10.4
- 16.8
dB
Rejection, out-of-band (refer to the mid-band level
(2.45GHz)
1 GHz
dB
dB
dB
dB
dB
mA
uA
V
26
1.75 GHz
7.8
4.2
8.5
24.6
15
2 GHz
3.2 GHz
4 GHz
Supply Current
Ids
Ish
Vds
11
21
Shutdown Current @ V_LNA_24_ON = 0V
Supply Voltage
1.5
3.3
4.9 to 6 GHz Band
Production
Min [7,8]
5.5 GHz (Typ.)
25 Deg
Production
Max [7,8]
Parameter and Test Condition
Gain
Symbol
G
Units
dB
21
-
23.2
1.4
25
Noise Figure
NF
dB
1.9
Gain Flatness
Gf
dB
0.3
Input 1dB Compressed Power
Input 3rd Order Intercept Point [1,2]
Input Return Loss
IP1dB
IIP3
S11
S22
dBm
dBm
dB
- 12.8
- 2.2
- 6.1
- 11.5
Output Return Loss
dB
Rejection, out-of-band (refer to the mid-band level (5.5
GHz)
3.7 GHz
dB
dB
mA
uA
V
12.7
7
7.5 GHz
Supply Current
Ids
Ish
Vds
19
23.4
2
31
Shutdown Current @ V_LNA_ON_52 = 0V
Supply Voltage
3.3
Notes:
7. The parameters with an indicated Production Limit (Production Min and Production Max) are tested at our production final test with no
guardbanding. Production Limits are tighter than Customer Limits to serve as a guardband to guarantee the Customer Limits. Customer Limits
will have the following guardband: Gain = 0.5dB, NF= 0.2dB, Ids= 1mA
8. Production Limits are subject to change with customer consensus and approval. Pricing is subject to change based on yield impact.
3
RF Input for 802.11a (5-6GHz)
RF Output for 802.11a (5-6GHz)
50-Ohms TL
50-Ohms TL
50-Ohms TL
50-Ohms TL
RF Input for 802.11b/g (2.4GHz)
RF Output for 802.11b/g (2.4GHz)
Figure 7. Simplified schematic diagram for demoboard used for Gain, NF, IIP3, IP1dB, Return Loss, Band Rejections and Ids measurement for 2.4G to
2.5GHz band and 4.9G to 6GHz.
4
ALM-2812 Typical Performance Curves, Vds = 3.3V (At 25*C unless specified otherwise)
18
1.4
17.5
1.2
17
1
16.5
0.8
16
15.5
15
0.6
0.4
0.2
0
25 deg
-5 deg
-40 deg
50 deg
85 deg
25 deg
-5 deg
-40 deg
50 deg
85 deg
14.5
14
3
3.3
3.6
3
3.3
3.6
Vdd (V)
Vdd (V)
Figure 8. Gain @ 2.45GHz vs Vds vs Temp
Figure 9. NF @ 2.45GHz vs Vds vs Temp
8
7
6
5
4
3
2
1
0
-5
-5.5
-6
-6.5
-7
25 deg
-5 deg
-40 deg
50 deg
85 deg
-7.5
-8
25 deg
-5 deg
-40 deg
50 deg
85 deg
-8.5
3
3.3
3.6
3
3.3
3.6
Vdd (V)
Vdd (V)
Figure 10. IIP3 @ 2.45GHz vs Vds vs Temp
Figure 11. IP1dB @ 2.45GHz vs Vds vs Temp
19
18
17
16
15
14
13
12
11
10
25 deg
-5 deg
-40 deg
50 deg
85 deg
3
3.3
3.6
Vdd (V)
Figure 12. Ids @ 2.45GHz vs Vds vs Temp
5
ALM-2812 Typical Performance Curves, Vds = 3.3V (At 25*C unless specified otherwise)
24.0
23.5
23.0
22.5
22.0
21.5
21.0
2.0
1.8
1.6
1.4
1.2
1.0
0.8
0.6
0.4
25 deg
-5 deg
-40 deg
50 deg
85 deg
25 deg
-5 deg
-40 deg
50 deg
85 deg
3
3.3
3.6
3
3.3
3.6
Vds (V)
Vds (V)
Figure 13. Gain @ 5.5GHz vs Vds vs Temp
Figure 14. NF @ 5.5GHz vs Vds vs Temp
-12.4
-12.6
-12.8
-13.0
-13.2
-13.4
-13.6
-13.8
-14.0
29.0
27.0
25.0
23.0
21.0
19.0
17.0
15.0
25 deg
-5 deg
-40 deg
50 deg
85 deg
25 deg
-5 deg
-40 deg
50 deg
85 deg
3
3.3
3.6
3
3.3
3.6
Vds (V)
Vds (V)
Figure 15. IIP3 @ 5.5GHz vs Vds vs Temp
Figure 16. IP1dB @ 5.5GHz vs Vds vs Temp
-0.5
-1.0
-1.5
-2.0
-2.5
-3.0
-3.5
-4.0
25 deg
-5 deg
-40 deg
50 deg
85 deg
3
3.3
3.6
Vds (V)
Figure 17. Ids @ 5.5GHz vs Vds vs Temp
6
2.4 to 2.5GHz Band Typical Scattering Parameters at 25*C, VDS = 3.3V, IDS = 15 mA
freq
S(1,1)
S(2,1)
S(1,2)
S(2,2)
100. MHz
300. MHz
500. MHz
700. MHz
900. MHz
1.10 GHz
1.30 GHz
1.50 GHz
1.70 GHz
1.90 GHz
2.10 GHz
2.30 GHz
2.50 GHz
2.70 GHz
2.90 GHz
3.10 GHz
3.30 GHz
3.50 GHz
3.70 GHz
3.90 GHz
4.10 GHz
4.30 GHz
4.50 GHz
4.70 GHz
4.90 GHz
5.10 GHz
5.30 GHz
5.50 GHz
5.70 GHz
5.90 GHz
6.10 GHz
6.30 GHz
6.50 GHz
6.70 GHz
6.90 GHz
7.10 GHz
7.30 GHz
7.50 GHz
7.70 GHz
7.90 GHz
8.10 GHz
8.30 GHz
8.50 GHz
8.70 GHz
8.90 GHz
9.00 GHz
-129.m / 164.
-211.m / 132.
-264.m / 98.7
-355.m / 62.4
-684.m / 27.5
-990.m / -12.7
-1.79 / -57.8
-3.34 / -103.
-5.31 / -152.
-7.59 / 160.
-9.48 / 111.
-10.7 / 54.0
-11.2 / -12.1
-11.0 / -76.0
-9.90 / -127.
-8.85 / -171.
-8.10 / 155.
-7.36 / 126.
-7.17 / 101.
-6.83 / 78.3
-7.32 / 61.3
-6.83 / 42.5
-7.06 / 29.9
-6.00 / 24.3
-2.22 / 211.m
-2.42 / -35.1
-2.95 / -69.4
-4.73 / -96.1
-6.27 / -123.
-7.55 / -154.
-8.48 / 162.
-9.01 / 118.
-7.97 / 74.7
-6.19 / 31.7
-5.39 / 6.19
-4.15 / -18.0
-3.40 / -39.8
-2.79 / -58.5
-2.43 / -76.1
-2.02 / -92.4
-1.72 / -108.
-1.35 / -123.
-1.27 / -140.
-1.37 / -158.
-2.38 / -177.
-3.20 / 178.
-64.6 / -6.16
-36.6 / 26.2
-23.1 / 166.m
-11.0 / -37.5
-15.6 / -116.
-5.66 / -98.4
1.15 / -135.
5.77 / -173.
8.84 / 143.
11.2 / 97.2
13.6 / 53.8
16.1 / 4.01
16.7 / -53.2
14.6 / -105.
12.5 / -142.
10.4 / 180.
7.42 / 143.
2.39 / 110.
-3.44 / 92.3
-9.12 / 95.9
-7.13 / 137.
-3.43 / 140.
-745.m / 114.
1.56 / 88.1
3.18 / 63.8
5.03 / 43.3
6.46 / 23.1
8.14 / -9.84
9.02 / -47.0
9.15 / -81.9
8.58 / -113.
7.76 / -139.
7.38 / -167.
5.97 / 166.
5.30 / 145.
4.34 / 122.
3.96 / 101.
4.43 / 87.5
4.81 / 73.7
6.01 / 46.7
6.88 / 16.9
6.36 / -14.2
5.34 / -34.7
5.39 / -55.3
5.82 / -79.6
6.81 / -91.9
-65.1 / 55.7
-65.6 / -39.1
-61.2 / -115.
-49.8 / -147.
-56.6 / 104.
-62.5 / 28.2
-56.1 / -25.8
-49.7 / -85.9
-44.7 / -122.
-40.2 / -157.
-36.5 / 162.
-34.3 / 115.
-34.5 / 62.7
-38.0 / 25.2
-40.8 / 16.5
-40.5 / 32.4
-35.7 / 27.8
-31.9 / -833.m
-28.9 / -24.1
-26.3 / -51.8
-24.9 / -81.0
-22.1 / -110.
-18.9 / -137.
-15.9 / -175.
-14.0 / 118.
-16.8 / 69.4
-18.1 / 27.5
-22.7 / -8.49
-27.2 / -28.7
-28.7 / 635.m
-23.3 / -40.9
-26.9 / -70.7
-25.9 / -64.9
-24.6 / -163.
-35.6 / -111.
-31.1 / -123.
-30.9 / -132.
-29.0 / -144.
-28.2 / -161.
-27.0 / 177.
-25.0 / 156.
-23.3 / 127.
-24.0 / 98.4
-22.3 / 63.5
-22.8 / 9.56
-26.6 / -15.3
5.93m / -15.3
-23.2m / -46.4
-77.6m / -77.4
-200.m / -109.
-305.m / -137.
-298.m / -168.
-408.m / 161.
-601.m / 130.
-907.m / 97.3
-1.53 / 60.1
-2.94 / 15.3
-6.63 / -45.6
-14.0 / -157.
-9.55 / 75.6
-6.04 / 12.9
-4.49 / -38.2
-3.69 / -85.7
-3.19 / -131.
-2.77 / -175.
-2.39 / 143.
-2.08 / 105.
-1.76 / 71.2
-1.53 / 39.6
-1.29 / 9.02
-1.33 / -26.0
-2.50 / -64.8
-2.99 / -104.
-3.53 / -157.
-3.46 / 150.
-2.61 / 105.
-1.86 / 61.8
-2.36 / 31.8
-1.67 / 3.46
-3.47 / -24.9
-1.80 / -44.7
-1.42 / -73.4
-1.43 / -98.1
-1.69 / -121.
-1.50 / -141.
-1.64 / -167.
-2.31 / 161.
-4.22 / 120.
-5.45 / 74.7
-5.12 / 7.27
-4.91 / -43.6
-4.12 / -55.8
20
0
Typical Noise Parameters,
VDS = 3.3V, IDS = 15mA
-2 0
-4 0
-6 0
Freq
GHz
NF
dB
0.8
0.8
0.8
2.4
2.45
2.5
-8 0
0
1
2
3
4
5
6
7
8
9
fre q , G Hz
7
4.9 to 6GHz Band Typical Scattering Parameters at 25*C, VDS = 3.3V, IDS = 23.4mA
freq
S(1,1)
S(2,1)
S(1,2)
S(2,2)
100. MHz
300. MHz
500. MHz
700. MHz
900. MHz
1.10 GHz
1.30 GHz
1.50 GHz
1.70 GHz
1.90 GHz
2.10 GHz
2.30 GHz
2.50 GHz
2.70 GHz
2.90 GHz
3.10 GHz
3.30 GHz
3.50 GHz
3.70 GHz
3.90 GHz
4.10 GHz
4.30 GHz
4.50 GHz
4.70 GHz
4.90 GHz
5.10 GHz
5.30 GHz
5.50 GHz
5.70 GHz
5.90 GHz
6.10 GHz
6.30 GHz
6.50 GHz
6.70 GHz
6.90 GHz
7.10 GHz
7.30 GHz
7.50 GHz
7.70 GHz
7.90 GHz
8.10 GHz
8.30 GHz
8.50 GHz
8.70 GHz
8.90 GHz
9.00 GHz
-86.9m / 167.
-136.m / 141.
-191.m / 115.
-229.m / 89.2
-233.m / 62.6
-368.m / 36.1
-285.m / 8.05
-353.m / -20.2
-342.m / -48.9
-345.m / -77.8
-369.m / -107.
-326.m / -136.
-318.m / -166.
-841.m / 164.
-1.42 / 145.
-776.m / 119.
-843.m / 92.1
-1.10 / 66.2
-1.31 / 41.1
-1.67 / 13.2
-2.23 / -15.8
-3.10 / -49.1
-4.48 / -89.1
-7.66 / -142.
-10.4 / 170.
-11.0 / 111.
-10.1 / 62.9
-9.04 / 20.7
-8.71 / -20.3
-10.1 / -62.1
-12.4 / -123.
-13.8 / 125.
-11.0 / 25.4
-13.4 / -19.8
-14.7 / -13.4
-13.7 / -513.m
-9.13 / -15.6
-6.54 / -37.1
-5.42 / -58.7
-5.14 / -80.7
-5.18 / -93.6
-4.92 / -108.
-4.74 / -122.
-4.55 / -135.
-4.61 / -148.
-4.64 / -155.
-63.4 / 25.1
-54.9 / -11.3
-42.4 / -41.6
-33.4 / -72.2
-27.0 / -111.
-21.2 / -146.
-15.5 / 170.
-12.6 / 125.
-11.4 / 80.9
-11.0 / 41.5
-10.8 / 12.8
-10.9 / -8.43
-14.2 / 5.68
-5.10 / 5.61
-3.35 / -19.0
6.23 / -46.6
9.23 / -98.7
9.31 / -140.
10.1 / -166.
12.2 / 158.
16.0 / 132.
17.6 / 102.
19.3 / 57.4
21.1 / 21.0
21.8 / -27.6
21.7 / -60.7
21.7 / -94.9
22.3 / -130.
22.9 / -165.
22.9 / 157.
22.9 / 117.
21.7 / 74.4
18.7 / 42.4
17.8 / 24.6
17.2 / -2.56
17.0 / -28.1
16.5 / -58.3
16.3 / -83.5
15.6 / -108.
14.9 / -136.
14.7 / -163.
13.7 / 169.
12.9 / 143.
12.3 / 120.
12.0 / 92.6
11.8 / 76.9
-66.7 / -145.
-67.5 / -153.
-80.4 / 1.59
-64.7 / -154.
-58.5 / 179.
-53.7 / 146.
-50.0 / 107.
-47.5 / 52.6
-48.1 / 17.1
-49.5 / -15.4
-53.6 / -45.6
-54.0 / -34.8
-44.8 / -9.14
-36.5 / -70.7
-38.8 / -156.
-43.5 / -176.
-43.9 / 167.
-45.8 / 153.
-42.5 / 128.
-43.5 / 108.
-43.0 / 97.5
-44.8 / 72.8
-44.8 / 34.5
-39.6 / -2.04
-47.8 / -111.
-50.2 / 156.
-44.9 / 78.3
-42.9 / 35.9
-42.2 / 14.8
-38.1 / -2.20
-34.8 / -30.4
-31.1 / -70.3
-30.2 / -137.
-33.6 / 165.
-39.6 / 111.
-44.2 / 74.5
-50.8 / -2.94
-51.5 / -64.2
-45.6 / -116.
-48.0 / 172.
-47.8 / 166.
-46.5 / 178.
-45.1 / 135.
-45.6 / 145.
-43.4 / 113.
-41.0 / 95.8
5.07m / -14.4
-24.9m / -43.2
-92.4m / -71.8
-217.m / -101.
-375.m / -129.
-576.m / -156.
-796.m / 179.
-768.m / 155.
-595.m / 129.
-505.m / 102.
-570.m / 74.3
-855.m / 44.4
-1.57 / 13.7
-2.41 / -10.6
-2.07 / -43.2
-2.25 / -75.6
-2.31 / -113.
-2.54 / -150.
-2.60 / 169.
-3.31 / 134.
-3.45 / 102.
-3.49 / 70.2
-4.06 / 37.2
-6.52 / 21.3
-8.39 / -12.0
-11.2 / -18.6
-13.2 / -26.5
-17.3 / -39.3
-23.7 / -6.49
-18.1 / 31.8
-16.8 / 14.8
-16.7 / 42.1
-6.61 / 28.9
-3.80 / -20.3
-3.74 / -56.6
-4.07 / -83.8
-4.57 / -108.
-5.25 / -129.
-6.31 / -148.
-7.48 / -170.
-10.9 / 167.
-17.8 / 143.
-29.0 / -43.5
-14.1 / -61.2
-8.97 / -86.0
-7.49 / -97.6
40
20
Typical Noise Parameters,
VDS = 3.3V, IDS = 23.4mA
0
Freq
GHz
4.95
5.5
NF
dB
1.6
1.5
1.5
-2 0
-4 0
-6 0
-8 0
6
0
1
2
3
4
5
6
7
8
9
fre q , G Hz
8
Part Number Ordering Information
Part Number
No. of Devices
3000
Container
ALM-2812-TR1G
ALM-2812-BLKG
13”Reel
100
antistatic bag
Package Dimensions
1.50 0.10
(12X) 0.43
(12X) 0.53
1.10 0.10
3.00 0.10
(12X) 0.23
Pin 1
identification
10
12
Pin 1
Pin 1
9
7
CMLY
WWDD
XXXX
1.50 0.10
3.00 0.10
(12X) 0.36
2
3
(12X) 0.53
6
4
(8X) 0.65
(4X) 1.30
SIDE VIEW
TOP VIEW
BOTTOM VIEW
Note:
1. All dimensions are in millimeters
2. Dimensions are inclusive of plating
3. Dimensions are exclusive of mold flash and metal burr.
Device Orientation
USER FEED DIRECTION
REEL
CMLY
WWDD
XXXX
CMLY
WWDD
XXXX
CMLY
WWDD
XXXX
CARRIER
TAPE
TOP VIEW
END VIEW
USER
FEED
DIRECTION
COVER TAPE
9
Tape Dimensions
2.0 ± ±0.1[1]
4.0 ± ±0.1[2]
0.3 ± ±0.05
1.75 ± ±0.1
5.5 ± ±0.1[1]
1.55 ± ±0.05
1.6 ± ±0.1
C
L
3.3 ± ±0.1
12.0 ± ±0.3
R 0.3
Typical
1.55 ± ±0.1
3.3 ± ±0.1
8.0 ± ±0.1
Notes:
1. Measured from centerline of sprocket hole to centerline of pocket
2. Cumulative tolerance of 10 sprocket holes is 0.20
3. All dimensions in millimeter unless otherwise stated
Reel Dimensions
For product information and a complete list of distributors, please go to our web site: www.avagotech.com
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.
Data subject to change. Copyright © 2005-2010 Avago Technologies. All rights reserved.
AV02-0383EN - May 21, 2010
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