AVAGO ALM-2412-TR1G Gps lna-filter front-end module Datasheet

ALM-2412
GPS LNA-Filter Front-End Module
Data Sheet
Description
Features
Avago Technologies’ ALM-2412 is an LNA module, with
integrated filter, designed for GPS band applications at
1.575GHz. The LNA uses Avago Technologies’ proprietary
GaAs Enhancement-mode pHEMT process to achieve high
gain with very low noise figure and high linearity. Noise
figure distribution is very tightly controlled. A CMOS-compatible shutdown pin is included either for turning the
LNA on/off, or for current adjustment. The integrated filter
utilizes an Avago Technologies’ leading-edge FBAR filter
for exceptional rejection at Cell/PCS-Band frequencies.
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The ALM-2412 is useable down to 1V operation. It achieves
low noise figure, high gain and linearity even at 1V, making
it suitable for use in critical low-power GPS applications or
during low-battery situations.
Component Image
RF_IN 1
Gnd 2
10 Gnd
11 Gnd
12 VDD
Surface Mount 3.3x2.1x1.1 mm3 12-lead MCOB
9 Gnd
2412
XXXXX
8 FILTER-OUT
7 Gnd
Gnd 6
Gnd 5
Gnd 4
SD 3
12 VDD
11 Gnd
10 Gnd
TOP VIEW
1 RF_IN
Gnd 9
2 Gnd
FILTER-OUT 8




Very Low Noise Figure : 0.85 dB typical
High Gain : 13.5 dB typical
High IIP3 and IP1dB
Exceptional Cell/PCS-Band rejection
Advanced GaAs E-pHEMT Technology
Low external component count
Wide Supply Voltage : 1V to 3.6V
Shutdown current : < 0.1uA
CMOS compatible shutdown pin (SD) current @ 2.8V :
0.1mA
Adjustable current via single external resistor/voltage
Meets MSL3, Lead-Free and Halogen-Free
ESD-protected RF input: 3kV HBM
Small package dimension: 3.3(L)x2.1(W)x1.1(H) mm3
Specifications (Typical performance at 25°C)
At 1.575GHz, Vdd = 2.85V, Idd = 9.0mA
 Gain = 13.5 dB
 NF = 0.85 dB
 IIP3 = +6.1 dBm, IP1dB = +2.2 dBm
 S11 = -8.4 dB, S22 =-9.0 dB
 Cell-Band Rejection: 53dBc
 PCS-Band Rejection: 65dBc
At 1.575GHz, 1.0V supply
 S21 = 7.2dB
 NF = 1.63dB
 Idd = 1.5mA
3 SD
Gnd 4
Gnd 5
Gnd 6
Gnd 7
Application
 GPS Band LNA
BOTTOM VIEW
Note:
Package marking provides orientation and identification
“2412”
= Product Code
First “X”
= Year of manufacture
Second “X”
= Work week of manufacture
Third “X”
= Datecode
Fourth & Fifth “X” = Lot Number
Attention: Observe precautions for
handling electrostatic sensitive devices.
For RF_IN (Pin 1): ESD Human Body Model = 3 kV
All other pins: ESD Machine Model = 40 V
ESD Human Body Model = 300 V
Refer to Avago Application Note A004R:
Electrostatic Discharge, Damage and Control.
Absolute Maximum Rating[1] TA=25°C
Thermal Resistance
Symbol
Parameter
Units
Absolute Max.
Vdd
Device Drain to Source Voltage[2]
V
3.6
Idd
Drain Current [2]
mA
20
Pin,max
CW RF Input Power
(Vdd = 2.85V, Idd=9.0mA)
dBm
15
Pdiss
Total Power Dissipation [4]
mW
72
Tj
Junction Temperature
°C
150
TSTG
Storage Temperature
°C
-65 to 150
T
Recommended Operating Temperature
°C
-40 to 85
Thermal Resistance[3]
(Vdd = 2.85 V, Idd = 9.0 mA), jc = 352.2°C/W
Notes:
1. Operation of this device in excess of any of
these limits may cause permanent damage.
2. Assuming DC quiescent conditions
3. Thermal resistance measured using Infra-Red
measurement technique.
4. Board (module belly) temperature TB is 25°C.
Derate 2.84 mW/°C for TB>125°C.
Electrical Specifications
TA = 25°C, Vdd = +2.85V, Vsd = +2.6V, Idd = 9.0mA (typ), R2 = 10 k, Freq = 1.575GHz – Typical Performance [8] unless
otherwise specified.
Table 1. Performance table at nominal operating conditions
Symbol
Parameter and Test Condition
Units
Min.
Typ
Max.
G
Gain
dB
11
13.5
-
NF[7]
Noise Figure
dB
-
0.85
1.20
IP1dB
Input 1dB Compressed Power
dBm
-
2.2
-
IIP3[9]
Input 3rd Order Intercept Point (2-tone @ Fc +/- 2.5MHz)
dBm
-
6.1
-
S11
Input Return Loss
dB
-
-8.4
-
S22
Output Return Loss
dB
-
-9.0
-
S12
Reverse Isolation
dB
-
-21.6
-
Cell Band Rejection
Relative to 1.575GHz @ 827.5MHz
dBc
45
53
-
PCS Band Rejection
Relative to 1.575GHz @ 1885MHz
dBc
45
65
-
Idd
Supply DC current at Shutdown (SD) voltage Vsd = 2.6V
mA
-
9.0
15.0
Ish
Shutdown Current @ VSD = 0V
uA
-
0.1
-
TA = 25°C, Vdd = +2.85V, Vsd = +1.8V, Idd = 3.2mA (typ), R2 = 10 k, Freq = 1.575GHz – Typical Performance [8] unless
otherwise specified.
Table 2. Typical performance at Vdd = +2.85V, Vsd = +1.8V, Idd = 3.2mA (typ)
Symbol
Parameter and Test Condition
Units
Typ
G
Gain
dB
11.5
NF[7]
Noise Figure
dB
1.1
IP1dB
Input 1dB Compressed Power
dBm
4.4
IIP3[9]
Input 3rd Order Intercept Point (2-tone @ Fc +/- 2.5MHz)
dBm
5.3
S11
Input Return Loss
dB
-6.8
S22
Output Return Loss
dB
-8.6
S12
Reverse Isolation
dB
-20.4
Cell Band Rejection
Relative to 1.575GHz @ 827.5MHz
dBc
56
PCS Band Rejection
Relative to 1.575GHz @ 1885MHz
dBc
62
Idd
Supply DC current at Shutdown (SD) voltage Vsd = 1.8V
mA
3.2
Ish
Shutdown Current @ VSD = 0V
uA
0.1
2
Vdd = +2V, Vdd = +1.5V, Vdd = +1V, Freq = 1.575GHz – Typical Performance[8] (Vsd = Vdd, R2 = 0 ohms)
Table 3. Typical performance at low operating voltages with R2 (see Figures 6 and 7) set to 0 ohms
Symbol
Parameter and Test Condition
Units
Vdd = 2V
Vdd = 1.5V Vdd = 1V
G
Gain
dB
12.6
11
7.2
NF[7]
Noise Figure
dB
0.8
1
1.6
IP1dB
Input 1dB Compressed Power
dBm
-0.7
-1.6
-0.7
IIP3[9]
Input 3rd Order Intercept Point (2-tone @ Fc +/- 2.5MHz)
dBm
6
4.3
3
S11
Input Return Loss
dB
-8.2
-7.4
-5.2
S22
Output Return Loss
dB
-12.9
-11
-7
S12
Reverse Isolation
dB
-21.6
-20.1
-16.9
Cell Band Rejection
Relative to 1.575GHz @ 827.5MHz
dBc
54.7
55.7
57.6
PCS Band Rejection
Relative to 1.575GHz @ 1885MHz
dBc
63.7
62.9
61.9
Idd
Supply DC current
mA
7.7
4.1
1.3
Ish
Shutdown Current @ VSD = 0V
uA
0.1
0.1
0.1
Notes:
7. For noise figure measurement, input board loss has not been deducted
8. Measurements at 1.575GHz obtained using demo board described in Figures 6 and 7
9. 1.575GHz IIP3 test condition: FRF1 = 1572.5 MHz, FRF2 = 1577.5 MHz with input power of -20dBm per tone measured at the worst case side band
3
4
3
1
2
RF
input
RF
output
ALM-2412
DC Pin Configuration of 4-pin Connector
Pins
pointing out
of the page
1 2 3 4
Pins 1, 4 = GND
Pin 2 = Shutdown (SD)
Pin 3 = Vdd Supply
Circuit Symbol Size
Desciption
L1
0402
Not Used
L2
0402
6.8 nH Inductor (Toko)
L3
0402
5.6 nH Inductor (Toko)
C1
0805
0.1 uF Capacitor (Murata)
C2
0402
10 pF Capacitor (Rohm)
C3
0402
6.8 pF Capacitor (Rohm)
C9
0402
100pF Capacitor (Rohm)
R1
0402
12 Ohms Resistor (Rohm)
R2
0402
10k Ohms Resistor (Rohm)
Z1
0805
Not Used
Figure 1. Demoboard and application circuit components table
4
1,4
Vdd
GND
3
R1
L1
Z1
C1
C2
L2
12
L3
50-Ohms TL
1
Input
match
Filter
8
C9
50-Ohms TL
3
2,4,5,6,7,9,10,11
R2
2
Module outline
SD
C3
Figure 2. Demoboard and application schematic diagram
Notes:
 The demoboard of Figure 6 is Rogers® RO4350 with typical Dk = 3.48 (@10GHz).
 L3 and the module’s internal input pre-match form the input matching network. The module has built-in DC-blocking capacitors at the input and
output.
 This circuit demonstrates that very low noise figure is obtainable with standard 0402 chip inductors instead of high-Q wirewound inductors.
 C2 and L2 form a matching network at the output of the LNA stage, which can be tuned to optimize gain and return loss. For example, higher gain
can be obtained by increasing the value of C2 but at the expense of stability. Changing the value of L2 can improve the PCS rejection, but impacts
output return loss.
 L1 is a choke which isolates the demoboard from external disturbances during measurement. It is not needed in actual application. Likewise, C1
and C3 mitigate the effect of external noise pickup on the Vdd and SD lines respectively. These components are not required in actual operation.
 R1 is a stability-enhancing resistor.
 C9 is a DC-blocking capacitor. It is also not required in actual operation.
 Bias control is achieved by either varying the SD voltage with/ without R2, or fixing the SD voltage to Vdd and adjusting R2 for the desired current.
Typical value for R2 is 10k Ohms for 9mA total current at Vdd = 2.85V and Vsd = +2.60V. For applications where it is more appropriate to have SD
(Vsd) connected to Vdd, an 18k Ohms resistor value for R2 is suggested (where Vdd = 2.85V).
 For low-voltage operation such as Vdd = 1.5V or 1.0V, R2 may be omitted and SD (Vsd) connected directly to Vdd.
 The grounding regime for the ALM-2412 is critical to achieving the PCS- and Cell-Band Rejections shown in Figure 9. Please refer to the PCB Land
Patterns section of this document for the exact locations of the grounding vias.
5
ALM-2412 Typical Performance Curves, Vdd = +2.85V, Idd = 6.2mA (At 25°C unless specified otherwise)
m4
freq=1.575GHz
dB(S(1,1))=-8.575
m1
freq=1.575GHz
dB(S(2,1))=11.975
m5
freq=1.575GHz
dB(S(1,2))=-21.786
20
m1
0
m6
m4
m5
-20
dB(S(2,2))
dB(S(2,1))
dB(S(1,2))
dB(S(1,1))
m6
freq=1.575GHz
dB(S(2,2))=-8.592
-40
m2
m3
-60
-80
-100
0.8
0.9
1.0
1.1
1.2
1.3 1.4
freq, GHz
1.5
m2
ind Delta=-7.475E8
dep Delta=-55.271
Delta Mode ON
Figure 3. Typical S-Parameter plot
Figure 4. Multiple module plots of rejection at Cell and PCS Bands
6
1.6
1.7
1.8
1.9
m3
ind Delta=3.100E8
dep Delta=-62.794
Delta Mode ON
ALM-2412 Typical Performance Curves, R1 = 10k ohms (At 25°C unless specified otherwise)
20
1.3
18
1.2
1.1
1.0
14
NF (dB)
Gain (dB)
16
12
5mA
9mA
11mA
8
2.4
2.5
2.6
2.7
2.8 2.9
Vdd (V)
3.0
3.1
3.2
0.5
7
10
6
2.6
2.7
2.8 2.9
Vdd (V)
3.0
3.1
3.2
3.3
5
IP1dB (dBm)
6
4
4
3
2
5mA
9mA
11mA
2
5mA
9mA
11mA
1
0
0
2.4
2.5
2.6
2.7
2.8 2.9
Vdd (V)
3.0
3.1
3.2
3.3
Figure 7. IIP3 Vs Vdd Vs Idd
2.4
12
IREJL (dBc)
10
8
6
4
2
1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0
Vsd (V)
Figure 9. Idd Vs Vsd (Vdd=2.85V)
2.5
2.6
2.7
2.8 2.9
Vdd (V)
3.0
3.1
3.2
3.3
Figure 8. IP1dB Vs Vdd Vs Idd
14
Idd (mA)
2.5
Figure 6. NF Vs Vdd Vs Idd
8
IIP3 (dBm)
0.4
2.4
3.3
12
0
5mA
9mA
11mA
0.6
Figure 5. Gain Vs Vdd Vs Idd
7
0.8
0.7
10
6
0.9
65
63
61
59
57
55
53
51
49
47
45
2.4
5mA
9mA
11mA
2.5
2.6
2.7
2.8 2.9
Vdd (V)
Figure 10. Cell band rejection Vs Vdd Vs Idd
3.0
3.1
3.2
3.3
ALM-2412 Typical Performance Curves, R1=10k ohms (At 25°C unless specified otherwise)
71
20
69
18
16
65
Gain (mA)
IREJU (dBc)
67
63
61
59
2.4
2.5
2.6
2.7
2.8 2.9
Vdd (V)
3.0
3.1
3.2
2.6
2.7
2.8 2.9
Vdd (V)
3.0
3.1
3.2
3.3
-40°C
25°C
85°C
10.0
IIP3 (dBm)
NF (dB)
2.5
12.0
-40°C
25°C
85°C
8.0
6.0
4.0
2.0
2.4
2.5
2.6
2.7
2.8 2.9
Vdd (V)
3.0
3.1
3.2
3.3
-40°C
25°C
85°C
5.0
4.0
3.0
2.0
1.0
2.4
2.5
2.6
2.7
2.8 2.9
Vdd (V)
Figure 15. IP1dB Vs Vdd Vs Temp (Idd=9mA)
0.0
2.4
2.5
2.6
2.7
2.8 2.9
Vdd (V)
Figure 14. IIP3 Vs Vdd Vs Temp (Idd=9mA)
6.0
IP1dB (dBm)
2.4
Figure 12. Gain Vs Vdd Vs Temp (Idd=9mA)
7.0
8
6
3.3
Figure 13. NF Vs Vdd Vs Temp (Idd=9mA)
0.0
12
8
Figure 11. PCS band rejection Vs Vdd Vs Idd
2.0
1.8
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.0
14
10
5mA
9mA
11mA
57
55
-40°C
25°C
85°C
3.0
3.1
3.2
3.3
3.0
3.1
3.2
3.3
65
63
61
59
57
55
53
51
49
47
45
80
75
70
IREJU (dBc)
IREJL (dBc)
ALM-2412 Typical Performance Curves, R1 = 10k ohms (At 25°C unless specified otherwise)
-40°C
25°C
85°C
65
60
55
-40°C
25°C
85°C
50
45
40
2.4
2.5
2.6
2.7
2.8 2.9
Vdd (V)
3.0
3.1
3.2
3.3
2.4
Figure 16. Cell band rejection Vs Vdd Vs Temp (Idd=9mA)
2.5
2.6
2.7
2.8 2.9
Vdd (V)
3.0
3.1
3.2
3.3
Figure 17. PCS band rejection Vs Vdd Vs Temp (Idd=9mA)
ALM-2412 Typical Scattering Parameters at 25°C, Vdd = 2.85V, Idd = 9.0 mA
The S- and Noise Parameters are measured using the PCB described in Figures 6 and 7. The PCB material is 10 mils
Rogers RO4350. Figure 23 shows the input and output reference planes. The circuit values, with the exception of L3,
are as indicated in Figure 6.
Freq
(GHz)
0.3
0.5
0.7
0.8
0.8275
0.9
1
1.1
1.2
1.3
1.4
1.5
1.575
1.6
1.7
1.8
1.885
1.9
2
2.1
2.2
2.3
2.4
2.5
3
3.5
4
4.5
5
5.5
6
9
S11
S11
S21
S21
S21
S12
(Mag)
(Ang)
0.9500
0.9810
0.9574
0.9309
0.9252
0.9177
0.9250
0.9353
0.9158
0.7946
0.5885
0.3586
0.3735
0.7476
0.4936
0.4779
0.4917
0.4964
0.5236
0.5578
0.5893
0.6208
0.6508
0.6799
0.7949
0.8681
0.9137
0.9380
0.9505
0.9528
0.9495
24.3080
-26.9915
-68.9018
-88.2339
-93.3423
-106.9481
-127.8097
-152.9168
174.7925
134.3360
90.9147
51.1412
84.3481
65.6530
-18.1639
-46.7353
-65.8114
-68.7818
-87.1166
-102.8903
-117.1373
-130.1776
-142.4117
-154.1330
152.7103
105.4590
61.2580
18.9691
-22.2529
-63.5553
-105.3280
S12
S22
S22
(dB)
(Mag)
(Ang)
(dB)
(Ang)
(Mag)
(Ang)
-53.0103
-45.0767
-41.5411
-41.2477
-41.1302
-40.5723
-39.5941
-37.2798
-35.7549
-37.5214
-41.8159
-40.0352
13.5499
11.1269
-49.2624
-55.2772
-48.8096
-47.9441
-43.6491
-41.0295
-39.2482
-38.9962
-37.8263
-37.9962
-64.9944
-23.9865
-15.5361
-15.1307
-17.3940
-21.1722
-29.2697
0.0022
0.0056
0.0084
0.0087
0.0088
0.0094
0.0105
0.0137
0.0163
0.0133
0.0081
0.0100
4.7588
3.6003
0.0034
0.0017
0.0036
0.0040
0.0066
0.0089
0.0109
0.0112
0.0128
0.0126
0.0006
0.0632
0.1672
0.1752
0.1350
0.0874
0.0344
-64.3603
-101.7629
-144.0420
-160.1246
-160.2805
-172.7013
-176.9576
165.3683
143.4377
130.8836
91.2687
169.4231
90.4620
143.9489
48.9582
75.0639
118.6825
118.5708
116.3684
104.5683
93.1084
79.8502
66.6074
52.4394
55.6408
79.4316
-31.2094
-135.1450
147.3349
70.6993
45.4125
-83.4472
-72.7369
-71.2519
-75.4796
-77.8045
-79.0652
-76.2791
-69.8529
-63.9935
-59.1849
-56.9362
-55.0038
-22.3019
-24.7551
-56.9992
-55.9405
-55.2593
-55.2112
-54.2886
-54.5318
-53.6690
-53.6796
-53.4105
-52.7064
-53.0296
-50.5228
-37.9448
-35.0746
-35.9246
-38.2030
-41.7965
2.2928
99.2046
62.3471
-10.3220
38.2306
53.4588
106.0042
145.2438
128.3283
111.7022
73.8568
48.7376
43.2091
91.0611
33.3754
22.7742
14.4221
9.3947
-2.7401
-8.6652
-18.1018
-28.8668
-37.4890
-49.4043
-115.4632
96.7559
-49.3136
-143.1255
137.3279
73.6058
64.5211
0.9983
0.9940
0.9949
0.9843
0.9856
0.9891
0.9832
0.9754
0.9802
0.9706
0.9634
0.8535
0.2586
0.5585
0.9617
0.9607
0.9519
0.9526
0.9544
0.9483
0.9440
0.9474
0.9366
0.9362
0.8899
0.7839
0.6408
0.6172
0.6552
0.6872
0.6352
-38.2983
-63.9345
-88.9346
-101.9066
-105.4838
-114.5814
-127.2962
-140.4467
-153.4140
-167.1344
177.1917
150.1499
-12.6662
-115.7049
160.2494
143.4297
131.2363
129.1638
116.1047
103.3151
90.2622
77.8684
64.5382
51.2358
-21.9066
-128.2725
50.7479
-110.1415
124.4230
27.3421
-19.4748
ALM-2412 Scattering Parameter and Noise Parameter Measurement
R1
Reference
plane
C2
C1
L1
Reference
plane
L2
12
1
Input
match
Filter
8
3
R2
Module outline
C3
Figure 18. Scattering and Noise Parameter reference planes
ALM-2412 Typical Scattering Parameters at 25°C, Vdd = 2.85V, Idd = 3.2 mA
Freq
(GHz)
S11
(Mag)
S11
(Ang)
S21
(dB)
S21
(Mag)
S21
(Ang)
S12
(dB)
S12
(Ang)
S22
(Mag)
S22
(Ang)
0.3
0.5
0.7
0.8
0.8275
0.9
1
1.1
1.2
1.3
1.4
1.5
1.575
1.6
1.7
1.8
1.885
1.9
2
2.1
2.2
2.3
2.4
2.5
3
3.5
4
4.5
5
5.5
6
0.9437
0.9793
0.9710
0.9534
0.9506
0.9480
0.9622
0.9832
0.9756
0.8282
0.5570
0.3014
0.4579
0.8078
0.3858
0.3640
0.3845
0.3902
0.4330
0.4870
0.5407
0.5913
0.6376
0.6797
0.8218
0.8905
0.9252
0.9426
0.9522
0.9528
0.9495
25.1842
-24.9837
-65.7032
-84.5781
-89.6180
-102.9481
-123.0758
-147.1698
-178.5820
141.3595
101.1569
75.0549
99.1677
76.1104
-6.8862
-34.6496
-53.6204
-56.6177
-74.9590
-91.2581
-106.4211
-120.6560
-134.1556
-147.0601
155.3244
106.0429
61.1667
18.8015
-22.3400
-63.5735
-105.3228
-56.6250
-47.6772
-43.9381
-43.5064
-43.6122
-42.6842
-41.4344
-38.8120
-36.8148
-38.1281
-42.6142
-41.2422
12.0288
10.2399
-49.8007
-55.4610
-49.4320
-48.7844
-44.8367
-42.0224
-40.6064
-40.3220
-39.2032
-39.5911
-73.9981
-26.4816
-17.8927
-17.1918
-19.0379
-22.3934
-30.1215
0.0015
0.0041
0.0064
0.0067
0.0066
0.0073
0.0085
0.0115
0.0144
0.0124
0.0074
0.0087
3.9943
3.2508
0.0032
0.0017
0.0034
0.0036
0.0057
0.0079
0.0093
0.0096
0.0110
0.0105
0.0002
0.0474
0.1275
0.1382
0.1117
0.0759
0.0312
-56.2045
-98.4688
-136.0755
-152.0264
-152.6773
-166.1491
-168.6170
173.8790
151.5848
135.7789
90.8719
170.7122
95.4837
152.0063
49.0105
74.5288
112.4398
115.2951
111.2168
98.7025
86.8407
73.8261
58.9540
44.5045
-66.0550
79.2320
-28.8321
-130.6277
152.7274
75.7488
50.3551
-76.3685
-75.2131
-72.7917
-75.3778
-70.6928
-76.3508
-76.5894
-73.2556
-64.1740
-59.4834
-56.8034
-55.3660
-21.0892
-22.7890
-57.1647
-55.9648
-55.0812
-54.9790
-54.1082
-54.1145
-52.6911
-51.9861
-52.2734
-51.5403
-52.5626
-52.8246
-39.3233
-36.4301
-36.9603
-38.8835
-41.9579
125.4973
89.0743
56.1160
65.0142
85.4300
26.7945
116.5373
118.9165
132.9518
110.0181
78.1796
54.0700
39.1122
90.5229
42.5100
25.6484
18.6501
12.9813
7.2474
-2.0907
-12.1006
-24.9929
-35.5332
-47.2899
-113.4427
91.8748
-54.1066
-144.6187
138.6193
75.7347
64.9560
0.9982
0.9942
0.9951
0.9845
0.9857
0.9891
0.9835
0.9752
0.9804
0.9709
0.9634
0.8547
0.3290
0.5356
0.9622
0.9608
0.9519
0.9526
0.9548
0.9486
0.9440
0.9481
0.9365
0.9366
0.8903
0.7844
0.6473
0.6257
0.6557
0.6692
0.6153
-38.2854
-63.9061
-88.9240
-101.8883
-105.5005
-114.5563
-127.2816
-140.4388
-153.3940
-167.1206
177.2173
150.1649
-4.5519
-120.2133
160.2686
143.4563
131.2389
129.1710
116.1177
103.3151
90.2799
77.8880
64.5526
51.2631
-21.8880
-128.2450
50.3538
-111.6124
122.4208
25.7070
-20.4365
10
ALM-2412 Typical Noise Parameter at 25°C,
Freq = 1.575GHz, Vdd = 2.85V, Idd = 9mA
Part Number Ordering Information
Freq
Fmin
GAMMA OPT
Part Number
No. of Devices
Container
(GHz)
(dB)
Mag
Ang
Rn/50
ALM-2412-BLKG
100
Antistatic Bag
1.575
0.7
0.55
62
0.36
ALM-2412-TR1G
3000
13” Reel
Notes:
 The exceptional noise figure performance of the ALM-2412 is due to its highly optimized design. In this regard, the Fmin of the ALM-2412 shown
above is locked down by the internal input pre-match. This allows the use of relatively inexpensive chip inductors for external matching.
 The NF performance of the ALM-2412 is also very resilient to operating conditions. For example, at Idd = 5mA, the degradation in NF is only 0.1dB,
and not more than 0.15dB degradation over temperature.
Package Dimensions
2x–0.69
0.50
PIN 1 ORIENTATION
2412
XXXXX
0.10
ALL EDGES
0.10
2x–0.28
0.07
GAPS
2x–0.28
3.30 ± 0.10
TOP VIEW
0.60 1.55
5x–0.35 SQ
2.10 ± 0.10
2x–0.47
2x–1.76
1.10 ± 0.10
SIDE VIEW
2x–0.20
7x–0.16
BOTTOM VIEW
NOTES:
1. ALL DIMENSIONS ARE IN MILLIMETERS.
2. DIMENSIONS ARE INCLUSIVE OF PLATING.
3. DIMENSIONS ARE EXCLUSIVE OF MOLD FLASH AND METAL BURR.
PCB Land Patterns and Stencil Design
PCB Land Pattern and Suggested Grounding Vias
Dimensions are in mm
11
Stencil Outline Drawing
Device Orientation
REEL
USER FEED DIRECTION
AVAGO
ALM-2412
MAXXXXX
XXXX
CARRIER
TAPE
AVAGO
ALM-2412
MAXXXXX
XXXX
TOP VIEW
USER
FEED
DIRECTION
END VIEW
COVER TAPE
Tape Dimensions
P10 (3)
P2 (1)
P0
T
D0
Y
F
5 MAX.
A
F (1)
W
B0
SECTION Y - Y
A0
Y
X
REF.
R 0.25
REF.
0.50
K0
SECTION X - X
REF.
R 0.65
REF.
R 0.25
DETAIL A
12
X
P1 (2)
NOTES:
1. MEASURE FROM CENTER LINE OF SPROCKET HOLE
TO CENTER LINE OF POCKET.
2. MEASURE FROM CENTER LINE OF POCKET HOLE
TO CENTER LINE OF POCKET.
3. PITCH TOLERANCE FOR SPROCKET HOLE:
10 PITCH CUMULATIVE TOLERANCE IS ± O.2 mm.
4. ALLOWABLE CAMBER TO BE 1 mm PER 250 mm
IN LENGTH.
D1
DIMENSIONS
NOTATION
MILLIMETERS
A0
3.60 ± 0.10
B0
2.40 ± 0.10
K0
1.35 ± 0.10
D0
1.55 ± 0.05
D1
1.60 ± 0.10
P0
4.00 ± 0.10
P1
8.00 ± 0.10
P2
2.00 ± 0.10
P10
40.00 ± 0.20
E
1.75 ± 0.10
F
5.50 ± 0.10
W
12.00 ± 0.30
T
0.30 ± 0.05
Reel Dimensions – 13 inch
11
12 1
2
3
4
0 2
10
9
7
6
5
DATE CODE
12MM
8
EMBOSSED LETTERING
16.0mm HEIGHT x MIN. 0.4mm THICK.
Ø329.0±1.0
HUB
Ø100.0±0.5
6
PS
0 2
1
1112 2
3
10
4
9
8 7 6 5
MP
N
CPN
EMBOSSED LETTERING
7.5mm HEIGHT
EMBOSSED LETTERING
7.5mm HEIGHT
1.5
(MI
N.)
FRONT VIEW
EMBOSSED LINE (2x)
89.0mm LENGTH LINES 147.0mm
AWAY FROM CENTER POINT
+0.5
-0.2
20.2(MIN.)
Ø13.0
11.9-15.4**
+2.0*
12.4
-0.0
Ø16.0
ESD LOGO
6
PS
RECYCLE LOGO
Detail "X"
SEE DETAIL "X"
Ø100.0±0.5
Ø329.0±1.0
6
PS
R19.0±0.5
BACK VIEW
SLOT
5.0±0.5(3x)
Ø12.3±0.5(3x)
For product information and a complete list of distributors, please go to our web site:
18.4 MAX.*
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 © 2005-2012 Avago Technologies. All rights reserved.
AV02-1757EN - March 2, 2012
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