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AMMP-5024
30kHz - 40 GHz Traveling Wave Amplifier
Data Sheet
Description
Avago Technologies' AMMP-5024 is a broadband PHEMT GaAs MMIC TWA designed for medium output power and high gain over the full 30 KHz to 40 GHz frequency range. The design employs a 9-stage, cascade-connected FET structure to ensure flat gain and power as well as uniform group delay. E-beam lithography is used to produce uniform gate lengths of 0.15um and MBE technology assures precise semiconductor layer control.
Features
* * * * * Surface Mount Package 5.0 x 5.0 x 2.0 mm Wide Frequency Range 30kHz - 40GHz High Gain: 14.8 dB Typical @ 22GHz Output P1dB: 22 dBm Typical @ 22GHz 50 Ohm Input and Output Match
Applications [1]
* Broadband Test and Measurement Applications
Notes: 1. Use in hermetic assemblies only.
Pin Connections (Top View)
Pin 2 3 4 5 6 7 8
Function Vaux Not Used Not Used RFout / Vdd Vg Not Used Vg2 RFin
Attention: Observe precautions for handling electrostatic sensitive devices. ESD Machine Model (Class A): 40V ESD Human Body Model (Class 0): 50V Refer to Avago Application Note A004R: Electrostatic Discharge Damage and Control.
RoHS-Exemption
Please refer to Hazardous substances table on page 11.
Table 1. Absolute Maximum Ratings[1]
Symbol Vdd Idd Vg Ig Vg2 Ig2 Pin Tch Tstg Tmax Parameters and Test Conditions Positive Drain Voltage Total Drain Current First Gate Voltage First Gate Current Second Gate Voltage Second Gate Current CW Input Power Operating Channel Temperature Storage Case Temperature Maximum Assembly Temperature (20 sec max) Unit V mA V mA V mA dBm C C C Minimum -9.5 -38 -3.5 -20 -65 Maximum 0 380 0 4 7 +50 +50 +260
Note: 1) Operation in excess of any one of these conditions may result in permanent damage to this device. The absolute maximum ratings for DC and Power parameters were determined at an ambient temperature of 25C unless noted otherwise.
Table 2. DC Specifications
(Vdd = 7V, Vg2 = Open, TA = 25C, otherwise specified) Symbol Vdd Idd Vg Idss Idsmin (Vg) qch-b Parameters and Test Conditions Recommended Drain Supply Voltage Total Drain Supply Current (Vg set for typical Idd) First Gate Voltage (Vdd = 7V, Idd = 200mA) Saturated Drain Current (Vg = 0V) First Gate Minimum Drain Current (Vg = -7V) Thermal Resistance [] Unit V mA V mA mA C/W Minimum -2.5 Typical 7 200 -3.0 350 80 4.5 Maximum -3.5 -
Note: 1) Channel-to-board Thermal Resistance is measured using Infrared Microscopy method.
Table 3. RF Specifications [1]
(Freq = 22GHz, Vdd = 7V, Idd = 200mA, TA = 25C, Zin = Zo = 50Ohm) Symbol Gain ISO RLin RLout NF PdB OIP3 Parameters and Test Conditions Small Signal Gain [2] Reverse Isolation Input Return Loss Output Return Loss Noise Figure Output Power at dB Gain Compression Output 3rd Order Intercept Point [3] Unit dB dB dB dB dB dBm dBm Minimum 2.5 Typical 4.8 30 3 4 4.6 22 25 Maximum 6.5 -
Notes: 1) Specifications are derived from measurements in a 50 Ohm test environment. Aspects of the amplifier performance may be improved over a narrower bandwidth by application of additional conjugate, linearity, or low noise matching. 2) All tested parameters guaranteed with measurement accuracy 0.5 dB for gain. 3) RFin1 = RFin2 = -5 dBm, Freq = 22GHz, Df = 100MHz
Table 4. RF Specifications [1]
(Freq = 22GHz, Vdd = 4V, Idd = 160mA, TA = 25C, Zin = Zo = 50Ohm) Symbol Gain ISO RLin RLout NF PdB OIP3 Parameters and Test Conditions Small signal Gain Reverse Isolation Input Return Loss Output Return Loss Noise Figure Output Power at dB Gain Compression Output 3rd Order Intercept Point [3] Unit dB dB dB dB dB dBm dBm Minimum Typical 5 27 3 4 4.6 9 8.5 Maximum -
Notes: 1) Specifications are derived from measurements in a 50 Ohm test environment. Aspects of the amplifier performance may be improved over a narrower bandwidth by application of additional conjugate, linearity, or low noise matching. 2) RFin1 = RFin2 = -5 dBm, Freq = 22GHz, Df = 100MHz
2
AMMP-5024 Typical Performance
(Vdd = 7V, Idd = 200mA, Vg2 = Open, TA = 25C, Zin = Zo = 50Ohm)
20 0 0 -5 10 GAIN (dB) -20 RETURN LOSS (dB) ISOLATION (dB) -10 -15 -20 -25 -30 -35 -20 0 5 10 15 20 25 30 35 40 -80 -40 0 5 10 15 20 25 30 S21 S12 35 40
0
-40
-10
S21 S12
-60
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 1. Gain and Reverse Isolation.
30 25 OUTPUT POWER (dBm) 20 15 10 5 0 P1dB P3dB 0 5 10 15 20 25 30 35 40
Figure 2. Return Loss (Input and Output).
50 40 30 20 10 0
OIP3 (dBm)
0
5
10
15
20
25
30
35
40
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 3. Output Power (P1dB and P3dB).
10 8 6 4 2 0
Figure 4. Output IP3.
NF (dB)
0
5
10
15
20
25
30
35
40
FREQUENCY (GHz)
Figure 5. Noise Figure.
3
AMMP-5024 Typical Scattering Parameters
(Vdd = 7V, Idd = 200mA, TA = 25C, Zin = Zo = 50Ohm) Freq. GHz 0.05 2 3 4 5 6 7 8 9 0 2 3 4 5 6 7 8 9 20 2 22 23 24 25 26 27 28 29 30 3 32 33 34 35 36 37 38 39 40 dB -25.978 -26.744 -26.57 -26.930 -29.254 -9.848 -4.255 -.38 -0.433 -2.506 -7.570 -7.725 -4.873 -3.85 -2.745 -0.76 -8.667 -7.590 -8.99 -0.463 -2.46 -3.659 -2.899 -0.55 -8.977 -8.885 -0.63 -2.342 -.834 -0.876 -5.263 -20.05 -8.785 -4.750 -9.580 -3.936 -6.029 -.205 -7.265 -5.74 -5.580 S11 Mag 0.050 0.046 0.047 0.045 0.035 0.02 0.94 0.277 0.30 0.237 0.32 0.30 0.80 0.204 0.23 0.292 0.369 0.47 0.389 0.300 0.238 0.208 0.227 0.3 0.356 0.360 0.294 0.242 0.256 0.286 0.73 0.099 0.364 0.579 0.332 0.20 0.58 0.275 0.433 0.58 0.526 Ang 73.70 7.220 6.340 2.940 6.460 -6.580 -58.60 -5.080 79.950 04.570 5.780 -99.60 73.320 00.70 25.400 -5.690 -28.50 53.760 74.850 -.090 -78.400 -65.0 6.340 34.530 -42.090 -26.570 25.640 22.90 -49.790 -9.600 32.230 .090 -45.770 -3.440 58.370 78.060 -43.060 -28.40 59.220 58.020 -52.20 dB 6.86 5.72 5.557 5.263 5.395 5.23 4.695 4.50 5.543 4.52 4.440 4.7 4.53 5.232 3.79 3.598 3.624 4.037 3.957 4.036 4.29 4.069 3.220 3.003 3.722 3.578 4.768 5.03 4.375 3.94 3.992 3.096 2.628 3.436 3.70 .457 3.3 2.777 3.000 3.086 .090 S21 Mag 6.446 6.0 5.996 5.797 5.885 5.704 5.429 5.35 5.335 5.36 5.272 5.439 5.37 5.48 4.893 4.785 4.800 5.034 4.987 5.033 5.83 5.052 4.582 4.468 4.854 4.774 5.475 5.643 5.233 4.963 5.008 4.57 4.279 4.697 4.555 3.740 4.535 4.354 4.467 4.5 3.585 Ang 74.640 00.990 24.70 -52.00 -29.670 55.70 78.790 3.360 -7.300 -47.300 37.020 59.00 -20.030 -97.380 -72.930 0.940 32.800 -43.060 -20.390 6.00 8.230 -2.200 -82.050 -57.240 26.770 50.30 -33.080 -22.80 59.050 72.680 -3.290 -97.250 -76.240 04.860 0.340 -67.360 -53.950 5.460 23.260 -75.620 -79.700 dB -72.335 -58.370 -53.860 -49.34 -47.270 -44.66 -42.263 -40.89 -39.546 -38.049 -37.5 -36.835 -36.36 -35.782 -35.242 -34.507 -34.278 -33.476 -32.375 -3.78 -3.69 -30.45 -30.29 -29.62 -30.07 -28.925 -28.294 -28.94 -28.375 -28.988 -28.236 -28.635 -29.742 -29.755 -30.895 -35.04 -32.535 -34.865 -33.033 -3.534 -34.663 S12 Mag 0.000 0.00 0.002 0.004 0.004 0.006 0.008 0.009 0.0 0.03 0.03 0.04 0.05 0.06 0.07 0.09 0.09 0.02 0.024 0.026 0.028 0.030 0.03 0.033 0.03 0.036 0.039 0.036 0.038 0.036 0.039 0.037 0.033 0.033 0.029 0.08 0.024 0.08 0.022 0.027 0.09 Ang 4.290 -65.550 -99.050 5.990 55.720 -27.830 58.680 85.780 3.470 -57.350 -35.60 52.0 77.930 6.700 -69.860 -39.850 45.780 70.520 -5.60 -85.970 -62.750 6.80 35.000 -39.830 -0.330 74.660 88.570 5.030 -65.960 -43.090 35.300 48.90 -34.570 -04.760 54.650 79.650 -6.350 -02.940 54.830 87.970 -5.950 dB -26.454 -33.252 -23.888 -7.895 -4.298 -2.23 -2.38 -4.387 -8.374 -35.09 -22.44 -24.802 -23.867 -5.395 -2.660 -.70 -3.556 -20.200 -9.304 -3.297 -.796 -3.6 -3.87 -.899 -.948 -6.07 -3.606 -.365 -6.99 -8.057 -9.323 -8.293 -7.399 -.404 -3.866 -9.98 -9.60 -8.479 -2.795 -7.08 -5.054 S22 Mag 0.048 0.022 0.064 0.27 0.93 0.248 0.247 0.9 0.2 0.08 0.078 0.058 0.064 0.70 0.233 0.260 0.20 0.098 0.08 0.26 0.257 0.220 0.204 0.254 0.253 0.57 0.026 0.270 0.45 0.396 0.08 0.385 0.427 0.269 0.203 0.37 0.33 0.377 0.229 0.40 0.77 Ang -42.740 -90.950 -55.950 5.270 33.330 -39.30 -04.940 -59.490 53.00 24.870 -72.790 6.650 74.450 94.380 -3.90 -99.380 75.490 8.490 38.90 7.230 -24.200 -49.00 65.50 -33.300 -29.00 32.30 -22.730 2.700 2.770 -88.900 78.600 -54.660 -2.060 -7.520 -49.50 33.420 -8.060 -42.750 .60 -48.940 -87.00
Notes: 1) S-parameters are measured on R&D Evaluation Board with 50 Ohm traces at input and output. Effects of connectors and board traces are included in results.
4
AMMP-5024 Typical Performance
(Vdd = 4V, Idd = 160mA, Vg2 = Open, TA = 25C , Zin = Zo = 50Ohm)
20 0 0 -5 10 GAIN (dB) -20 RETURN LOSS (dB) ISOLATION (dB) -10 -15 -20 -25 -30 -35 -20 0 5 10 15 20 25 30 35 40 -80 -40 0 5 10 15 20 25 30 S11 S22 35 40
0
-40
-10
S21 S12
-60
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 6. Gain and Reverse Isolation.
30 25 OUTPUT POWER (dBm) 20 15 10 5 0 P1dB P3dB 0 5 10 15 20 25 30 35 40
Figure 7. Return Loss (Input and Output).
50 40 30 20 10 0
OIP3 (dBm)
0
5
10
15
20
25
30
35
40
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 8. Output Power (P1dB and P3dB).
10 8 6 4 2 0
Figure 9. Output IP3.
NF (dB)
0
5
10
15
20
25
30
35
40
FREQUENCY (GHz)
Figure 10. Noise Figure.
5
AMMP-5024 Typical Scattering Parameters
(Vdd = 4V, Idd = 160mA, TA = 25C, Zin = Zo = 50Ohm) Freq. GHz 0.05 2 3 4 5 6 7 8 9 0 2 3 4 5 6 7 8 9 20 2 22 23 24 25 26 27 28 29 30 3 32 33 34 35 36 37 38 39 40 dB -25.975 -28.28 -30.83 -28.24 -24.84 -8.702 -4.730 -.826 -0.975 -2.836 -7.76 -7.65 -4.886 -4.53 -3.644 .754 -9.429 -7.942 -8.89 -0.225 -2.340 -3.992 -3.705 -0.932 -9.67 -9.069 -0. -.66 -.753 -.22 -5.324 -2.074 -.267 -4.486 -8.36 -3.96 -5.98 -3.80 -8.90 -4.75 -3.037 S11 Mag 0.050 0.039 0.029 0.039 0.062 0.6 0.83 0.256 0.283 0.228 0.30 0.3 0.8 0.96 0.208 0.258 0.338 0.40 0.390 0.308 0.242 0.200 0.206 0.284 0.328 0.352 0.32 0.26 0.258 0.275 0.7 0.088 0.273 0.597 0.384 0.200 0.74 0.204 0.359 0.68 0.705 Ang 74.630 08.030 64.30 46.520 6.640 -9.780 -65.590 -6.980 -79.330 06.430 4.850 -03.900 68.360 93.980 20.670 -52.750 -25.90 57.230 78.0 0.470 -79.400 -67.590 5.700 36.40 -37.330 -8.940 33.920 25.300 -53.360 -8.650 25.850 -36.080 -33.640 -20.550 56.720 76.250 -50.950 -43.50 79.800 78.600 -50.850 dB 6.479 6.08 5.889 5.628 5.754 5.503 5.25 4.965 5.037 5.00 4.909 5.229 5.064 4.860 4.476 4.332 4.399 4.75 4.623 4.727 5.088 4.96 4.032 3.956 4.892 4.529 5.764 6.279 5.868 5.60 5.777 4.830 4.29 4.902 5.45 3.772 6.0 5.622 5.907 7.068 5.74 S21 Mag 6.667 6.323 6.229 6.045 6.33 5.959 5.705 5.60 5.648 5.624 5.565 5.774 5.665 5.534 5.294 5.207 5.248 5.465 5.384 5.449 5.680 5.570 5.030 4.986 5.554 5.327 6.40 6.55 6.24 6.032 6.50 5.54 5.40 5.56 5.77 4.882 6.38 6.04 6.243 7.35 6.05 Ang 74.400 0.970 26.560 -49.400 -26.50 59.420 83.920 9.00 -64.980 -40.0 44.780 67.790 -0.380 -86.830 -6.820 22.500 44.800 -30.40 -06.690 76.060 97.70 4.300 -64.320 -37.590 46.220 69.630 -0.430 -97.400 -76.30 96.880 .950 -72.680 -50.300 34.360 43.50 -35.700 -20.60 47.660 58.030 -38.80 -5.620 dB -5.65 -60.865 -54.525 -50.773 -49.843 -46.32 -43.909 -42.439 -4.44 -39.34 -39.078 -38.247 -37.729 -37.72 -36.737 -36.00 -35.0 -34.558 -33.64 -32.688 -3.995 -30.988 -30.770 -30.052 -30.344 -29.49 -28.633 -28.60 -28.074 -28.302 -27.638 -27.784 -28.440 -28.53 -30.77 -3.432 -28.308 -28.977 -30.75 -26.925 -26.470 S12 Mag 0.003 0.00 0.002 0.003 0.003 0.005 0.006 0.008 0.009 0.0 0.0 0.02 0.03 0.04 0.05 0.06 0.08 0.09 0.02 0.023 0.025 0.028 0.029 0.03 0.030 0.034 0.037 0.037 0.040 0.038 0.042 0.04 0.038 0.038 0.03 0.027 0.038 0.036 0.03 0.045 0.048 Ang -69.00 -7.660 95.50 5.870 -6.360 -36.060 50.930 78.940 8.470 -63.760 -42.980 45.670 7.20 2.890 -76.640 -44.320 4.280 66.320 -9.90 -89.470 -67.20 .200 30.820 -44.40 -5.840 69.820 87.000 0.560 -69.280 -49.580 30.670 40.680 -43.040 -0.990 48.930 67.850 -2.850 -22.70 30.050 85.060 -35.600 dB -27.959 -39.098 -26.428 -9.38 -5.352 -2.753 -2.234 -3.687 -7.208 -32.60 -22.939 -25.802 -22.85 -5.068 -2.603 -.888 -3.870 -9.273 -8.342 -4.080 -2.706 -3.899 -4.245 -2.565 -2.02 -5.400 -30.86 -3.237 -7.465 -7.579 -8.770 -8.75 -7.47 -9.73 -8.74 -0.62 -7.894 -6.95 -0.529 -2.977 -9.244 S22 Mag 0.040 0.0 0.048 0.07 0.7 0.230 0.245 0.207 0.38 0.023 0.07 0.05 0.072 0.77 0.234 0.255 0.203 0.09 0.2 0.98 0.232 0.202 0.94 0.235 0.25 0.70 0.029 0.28 0.423 0.48 0.5 0.390 0.439 0.326 0.6 0.30 0.403 0.45 0.298 0.225 0.09 Ang -50.830 -4.70 -56.480 6.080 35.680 -34.70 -98.940 -54.490 52.70 98.900 -70.30 20.520 75.400 93.20 -3.800 -99.80 78.870 30.040 23.90 64.290 -25.240 -48.040 64.620 -29.680 -22.900 46.520 95.370 .780 7.340 -83.330 0.450 -5.80 -8.200 -72.20 -48.940 53.430 8.390 -35.880 6.50 -45.40 -20.650
Note: 1) S-parameters are measured on R&D Evaluation Board with 50 Ohm traces at input and output. Effects of connectors and board traces are included in results.
6
AMMP-5024 Typical Performance
(Over Temperature, Vdd = 7V, Idd = 200mA, Zin = Zo = 50Ohm)
20 0
10 ISOLATION (dB) S21/25C S21/-40C S21/85C GAIN (dB)
-20
0
-40
-10
-60
S12/25C S12/-40C S12/85C 0 5 10 15 20 25 30 35 40
-20
0
5
10
15
20
25
30
35
40
-80
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 11. Gain and Temperature.
0
Figure 12. Isolation and Temperature.
0
-10 RETURN LOSS (dB) RETURN LOSS (dB)
-10
-20
-20
-30
S11/25C S11/-40C S11/85C 0 5 10 15 20 25 30 35 40
-30
S22/25C S22/-40C S22/85C 0 5 10 15 20 25 30 35 40
-40
-40
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 13. Input Return Loss and Temperature.
10 8 6 4 2 0 NF/25C NF/-40C NF/85C
Figure 14. Output Return Loss and Temperature.
30 25 20 P1dB (dBm) 15 10 5 0 P1dB/25C P1dB/-40C P1dB/85C 0 5 10 15 20 25 30 35 40
NF (dB)
0
5
10
15
20
25
30
35
40
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 15. Noise Figure and Temperature.
Figure 16. P1dB and Temperature.
7
Biasing and Operation
AMMP-5024 is biased with a single positive drain supply (Vdd) a negative gate supply (Vg1) and has a positive control gate supply (Vg2). For best overall performance the recommended bias condition for the AMMP-5024 is Vdd =7V and Idd = 200 mA. To achieve this drain current level, Vg1 is typically between -2.5 to -3.5V. Typically, DC current flow for Vg1 is -10 mA. Open circuit is the default setting for Vg2 when not utilizing gain control. Using the simplest form of assembly, the device is capable of delivering flat gain over a 2-40 GHz range. However, this device is designed with DC coupled RF I/O ports, and operation may be extended to lower frequencies (<2 GHz) through the use of off-chip low-frequency extension circuitry and proper external biasing components. With low frequency bias extension it may be used in a variety of time domain applications (through 40 Gb/s). When bypass capacitors are connected to the AUX pads, the low frequency limit is extended down to the corner frequency determined by the bypass capacitor and the combination of the on-chip 50 ohm load and small dequeing resistor. At this frequency the small signal gain will increase in magnitude and stay at this elevated level down to the point where the Caux bypass capacitor acts as an open circuit, effectively rolling off the gain completely. The low frequency limit can be approximated from the following equation: fCaux = 1 2pCaux (Ro + RDEQ)
Recommended SMT Attachment
The AMMP Packaged Devices are compatible with high volume surface mount PCB assembly processes. The PCB material and mounting pattern, as defined in the data sheet, optimizes RF performance and is strongly recommended. An electronic drawing of the land pattern is available upon request from Avago Sales & Application Engineering.
Manual Assembly
1. Follow ESD precautions while handling packages. 2. Handling should be along the edges with tweezers. 3. Recommended attachment is conductive solder paste. Please see recommended solder reflow profile. Conductive epoxy is not recommended. Hand soldering is not recommended. 4. Apply solder paste using a stencil printer or dot placement. The volume of solder paste will be dependent on PCB and component layout and should be controlled to ensure consistent mechanical and electrical performance. 5. Follow solder paste and vendor's recommendations when developing a solder reflow profile. A standard profile will have a steady ramp up from room temperature to the pre-heat temperature to avoid damage due to thermal shock. 6. Packages have been qualified to withstand a peak temperature of 260C for 20 seconds. Verify that the profile will not expose device beyond these limits.
where: Ro is the 50 gate or drain line termination resistor. RDEQ is the small series dequeing resistor and 10. Caux is the capacitance of the bypass capacitor connected to the AUX Drain and AUX Gate pad in farads. With the external bypass capacitors connected to the AUX gate and AUX drain pads, gain will show a slight increase between 1.0 and 1.5 GHz. This is due to a series combination of Caux and the on-chip resistance but is exaggerated by the parasitic inductance (Lc) of the bypass capacitor and the inductance of the bond wire (Ld). Input and output RF ports are DC coupled; therefore, DC decoupling capacitors are required if there are DC paths. (Do not attempt to apply bias to these pads.)
Stencil Design Guidelines
A properly designed solder screen or stencil is required to ensure optimum amount of solder paste is deposited onto the PCB pads. The recommended stencil layout is shown in Figure 19. The stencil has a solder paste deposition opening approximately 70% to 90% of the PCB pad. Reducing stencil opening can potentially generate more voids underneath. On the other hand, stencil openings larger than 100% will lead to excessive solder paste smear or bridging across the I/O pads. Considering the fact that solder paste thickness will directly affect the quality of the solder joint, a good choice is to use a laser cut stencil composed of 0.127 mm (5 mils) thick stainless steel which is capable of producing the required fine stencil outline. The combined PCB and stencil layout is shown in Figure 20.
8
Outline Drawing
1 2 3
0.011 [0.28] 0.018 [0.46]
0.114 [2.9] 321
0.014 [0.365]
0.016 [0.40]
A 8
AMMP XXXX YWWDNN
7 65 A
4
0.126 [3.2]
0.059 [1.5] 0.100 [2.54]
4
8
0.029 [0.75]
B
0.012 [0.30] 5 6 7 0.028 [0.70] 0.093 [2.36]
0.100 [2.54] 0.016 [0.40]
Front View
Symbol A B Min 0.198 (5.03) 0.0685 (1.74)
Side View
Max 0.213 (5.4) 0.088 (2.25)
Back View
Dimensional tolerance for back view: 0.002" [0.05 mm]
Notes: 1. * Indicates Pin 1 2. Dimensions are in inches [millimeters] 3. All Grounds must be soldered to PCB RF Ground
Figure 17. Outline Drawing
Figure 18. Suggested PCB Material and Land Pattern
Figure 19. Stencil Outline Drawing (mm) 9
Figure 20. Combined PCB and Stencil Layouts
Carrier Tape and Pocket Dimensions
Device Orientation (Top View)
Part Number Ordering Information
Part Number AMMP-5024-BLKG AMMP-5024-TRG AMMP-5024-TR2G Devices per Container 0 00 500 Container Antistatic Bag 7" Reel 7" Reel
0
Avago Techno og es Cer ca e O Comp an Avago Technollogiies Certtiiffiicatte Off Complliian
The part names and contents of the hazardous substances in the electronic information products as shown below.
Names and Contents of the Toxic and Hazardous Substances or Elements in the Products Part Name Lead (Pb) (Pb) Mercury (Hg) Hg Toxic and Hazardous Substances or Elements Cadmium (Cd) Cd Hexavalent (Cr(VI)) Cr(VI) Polybrominated biphenyl (PBB) PBB Polybrominated diphenylether (PBDE) PBDE
100pF capacitor
: indicates that the content of the toxic and hazardous substance in all the homogeneous materials of the part is below the concentration limit requirement as described in SJ/T 11363-2006. : indicates that the content of the toxic and hazardous substance in at least one homogeneous material of the part exceeds the concentration limit requirement as described in SJ/T 11363-2006. (The enterprise may further explain the technical reasons for the "x" indicated portion in the table in accordance with the actual situations.) SJ/T 11363-2006 SJ/T 11363-2006
"x"
Note: EU RoHS compliant under exemption clause of "lead in electronic ceramic parts (e.g. piezoelectronic devices)"
Avago Techno og es Cer ca e O Comp ance Avago Technollogiies Certtiiffiicatte Off Complliiance
For product availability and compliance information, please contact Avago distributors or Avago Sales & Marketing via rohs.enquiry-spg@avagotech.com. For product technical information (termination finish, temperature profile, product substance content etc.) please contact: pb-free.spg@avagotech.com. This document further certifies that the materials declaration provided above by Avago Technologies is accurate.
AVAGO Technologies Product Stewardship Malaysian Contact: Chan Gum Meng Bayan Lepas FIZ Phase 3, 11900 Penang, Malaysia E-mail: gum-meng.chan@avagotech.com Malaysian contact: 604-610-5615
The information presented in this document is believed accurate and reliable. Data is the most current available to Avago Technologies at the time of preparation and is issued as a matter of information only. No warranty as to accuracy or completeness is expressed or implied. The information in this document is subject to change without notice. (c) Copyright Avago Technologies, 2005. Reproduction, adaptation, or translation without prior written permission is prohibited except as allowed under copyright laws.
Avago Technologies Certificate of Compliance
Page 2
Format Rev 5, 5 July 2007
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, Limited in the United States and other countries. Data subject to change. Copyright (c) 2007 Avago Technologies Limited. All rights reserved. AV02-0465EN - August 29, 2007

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