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;


型号：	ALM-2812-TR1G
厂家：	AVAGO TECHNOLOGIES LIMITED
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.

ꢀ Small Footprint: 3x3mm

ꢀ Low Proﬁle: 1.1mm max.

ꢀ Minimal External Components

Typical Speciﬁcations (25°C):

Surface Mount

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

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

Absolute Maximum

Drain – Source Voltage^[2]

2G Drain Current ^[2]

5G Drain Current ^[2]

V_DS

3.6

I_{DS_2G}

I_{DS_5G}

Total Power Dissipation ^[3]Pdiss

0.2

RF Input Power

Pin max. dBm

Channel Temperature

Storage Temperature

Thermal Resistance ^[4]

T_CH

150

T_STG

ꢁch_b

-65 to 150

29.9

*C/W

[5,6]

Product Consistency Distribution Charts

8000

6000

4000

2000

10000

Stdev = 0.3

Stdev = 0.9

8000

6000

+3 Std

- 3 Std

+3 Std

4000

2000

0.3 0.6 0.9 1.2 1.5

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

4000

2000

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

Stdev = 0.1

Stdev = 1.5

6000

+3 Std

-3 Std

4000

2000

0.8 1.1 1.4 1.7

2.3

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.

[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

Units

16.7

0.8

18.5

1.5

Noise Figure

Gain Flatness

0.1

Input 1dB Compressed Power

Input 3rd Order Intercept Point

Input Return Loss

Output Return Loss

IP1dB

IIP3

S11

S22

dBm

- 5.8

6.1

- 10.4

- 16.8

Rejection, out-of-band (refer to the mid-band level

(2.45GHz)

1 GHz

1.75 GHz

7.8

4.2

8.5

24.6

2 GHz

3.2 GHz

4 GHz

Supply Current

Ids

Ish

Vds

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

Units

23.2

1.4

Noise Figure

1.9

Gain Flatness

0.3

Input 1dB Compressed Power

Input 3rd Order Intercept Point [1,2]

Input Return Loss

IP1dB

IIP3

S11

S22

dBm

- 12.8

- 2.2

- 6.1

- 11.5

Output Return Loss

Rejection, out-of-band (refer to the mid-band level (5.5

GHz)

3.7 GHz

12.7

7.5 GHz

Supply Current

Ids

Ish

Vds

23.4

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.

RF Input for 802.11a (5-6GHz)

RF Output for 802.11a (5-6GHz)

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.

ALM-2812 Typical Performance Curves, Vds = 3.3V (At 25*C unless speciﬁed otherwise)

1.4

17.5

1.2

16.5

0.8

15.5

0.6

0.4

0.2

25 deg

-5 deg

-40 deg

50 deg

85 deg

25 deg

-5 deg

-40 deg

50 deg

85 deg

14.5

3.3

3.6

3.3

3.6

Vdd (V)

Figure 8. Gain @ 2.45GHz vs Vds vs Temp

Figure 9. NF @ 2.45GHz vs Vds vs Temp

-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

3.6

3.3

3.6

Vdd (V)

Figure 10. IIP3 @ 2.45GHz vs Vds vs Temp

Figure 11. IP1dB @ 2.45GHz vs Vds vs Temp

25 deg

-5 deg

-40 deg

50 deg

85 deg

3.3

3.6

Vdd (V)

Figure 12. Ids @ 2.45GHz vs Vds vs Temp

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

3.6

3.3

3.6

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

3.6

3.3

3.6

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

3.6

Vds (V)

Figure 17. Ids @ 5.5GHz vs Vds vs Temp

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

Typical Noise Parameters,

V_DS= 3.3V, I_DS= 15mA

-2 0

-4 0

-6 0

Freq

GHz

0.8

2.4

2.45

2.5

-8 0

fre q , G Hz

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

Typical Noise Parameters,

V_DS= 3.3V, I_DS= 23.4mA

Freq

GHz

4.95

5.5

1.6

1.5

-2 0

-4 0

-6 0

-8 0

fre q , G Hz

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

Pin 1

CMLY

WWDD

XXXX

1.50 0.10

3.00 0.10

(12X) 0.36

(12X) 0.53

(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

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

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.

AV02-0383EN - May 21, 2010

ALM-2812-TR1G [AVAGO]

相关型号：

ALM-3012

ALM-3012-BLK

ALM-3012-TR1

ALM-31-

ALM-31-/Q

ALM-31-B

ALM-31-B/Q

ALM-31-C

ALM-31-C/Q

ALM-31-D

ALM-31-D/Q

ALM-31-F