HMC499
v03.0908
GaAs PHEMT MMIC MEDIUM POWER AMPLIFIER, 21 - 32 GHz
Typical Applications
The HMC499 is ideal for use as a power amplifier for: • Point-to-Point Radios
Features
Output IP3: +33 dBm P1dB: +24 dBm Gain: 16 dB Supply Voltage: +5V 50 Ohm Matched Input/Output Die Size: 2.04 x 1.09 x 0.1 mm
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LINEAR & POWER AMPLIFIERS - CHIP
• Point-to-Multi-Point Radios • VSAT • Military & Space
Functional Diagram
General Description
The HMC499 is a high dynamic range GaAs PHEMT MMIC Medium Power Amplifier which operates between 21 and 32 GHz. The HMC499 provides 16 dB of gain, and an output power of +24 dBm at 1 dB compression from a +5V supply voltage. The HMC499 amplifier can easily be integrated into MultiChip-Modules (MCMs) due to its small size. All data is with the chip in a 50 Ohm test fixture connected via 0.025mm (1 mil) diameter wire bonds of minimal length 0.31mm (12 mils).
Electrical Specifi cations, TA = +25° C, Vdd = 5V, Idd = 200 mA*
Parameter Frequency Range Gain Gain Variation Over Temperature Input Return Loss Output Return Loss Output Power for 1 dB Compression (P1dB) Saturated Output Power (Psat) Output Third Order Intercept (IP3) Noise Figure Supply Current (Idd)(Vdd = 5V, Vgg = -0.8V Typ.) 20 13 Min. Typ. 21.0 - 24.0 16 0.03 10 13 23 24 30 6.5 200 20 0.04 12.5 Max. Min. Typ. 24.0 - 28.0 15.5 0.03 5 12 24 24.5 33 5.0 200 21 0.04 12 Max. Min. Typ. 28.0 - 32.0 15 0.03 8 12 24.5 25 33.5 4.5 200 0.04 Max. Units GHz dB dB/ °C dB dB dBm dBm dBm dB mA
* Adjust Vgg between -2 to 0V to achieve Idd = 200 mA typical.
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For price, delivery, and to place orders, please contact Hittite Microwave Corporation: 20 Alpha Road, Chelmsford, MA 01824 Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com
HMC499
v03.0908
GaAs PHEMT MMIC MEDIUM POWER AMPLIFIER, 21 - 32 GHz
Broadband Gain & Return Loss
20 15 RESPONSE (dB) 10
S21 S11 S22
Gain vs. Temperature
24 20 16 12 8 4 0
0 -5 -10 -15 -20 18 20 22 24 26 28
GAIN (dB)
5
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LINEAR & POWER AMPLIFIERS - CHIP
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+25 C +85 C -55 C
30
32
34
36
20
21 22 23
24 25 26
27
28 29 30
31 32
33
FREQUENCY (GHz)
FREQUENCY (GHz)
Input Return Loss vs. Temperature
0
Output Return Loss vs. Temperature
0
+25 C +85 C -55 C
-4 RETURN LOSS (dB) RETURN LOSS (dB)
+25 C +85 C -55 C
-4
-8
-8
-12
-12
-16
-16
-20 20 21 22 23 24 25 26 27 28 29 30 31 32 33 FREQUENCY (GHz)
-20 20 21 22 23 24 25 26 27 28 29 30 31 32 33 FREQUENCY (GHz)
Output P1dB vs. Temperature
30
Psat vs. Temperature
30
26 P1dB (dBm) Psat (dBm)
26
22
+25 C +85 C -55 C
22
+25 C +85 C -55 C
18
18
14
14
10 20 21 22 23 24 25 26 27 28 29 30 31 32 33 FREQUENCY (GHz)
10 20 21 22 23 24 25 26 27 28 29 30 31 32 33 FREQUENCY (GHz)
For price, delivery, and to place orders, please contact Hittite Microwave Corporation: 20 Alpha Road, Chelmsford, MA 01824 Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com
HMC499
v03.0908
GaAs PHEMT MMIC MEDIUM POWER AMPLIFIER, 21 - 32 GHz
Output IP3 vs. Temperature
40
Noise Figure vs. Temperature
12 10 NOISE FIGURE (dB) 8 6 4 2 0
36
IP3 (dBm)
3
LINEAR & POWER AMPLIFIERS - CHIP
+25 C +85 C -55 C
32
28
+25 C +85 C -55 C
24
20 20 21 22 23 24 25 26 27 28 29 30 31 32 33 FREQUENCY (GHz)
20
21 22 23
24 25 26
27
28 29 30
31 32
33
FREQUENCY (GHz)
Gain & Power vs. Supply Voltage@ 30 GHz, Idd= 200 mA
26 GAIN (dB), P1dB (dBm), Psat (dBm)
Reverse Isolation vs. Temperature
0 -10
22 ISOLATION (dB) -20 -30 -40 -50 -60 3 3.5 4 Vdd (V) 4.5 5 5.5 20 21 22 23 24 25 26 27 28 29 30 31 32 33 FREQUENCY (GHz)
+25 C +85 C -55 C
18
14
Gain P1dB Psat
10
Power Compression @ 22 GHz
28 Pout (dBm), GAIN (dB), PAE (%) 24 20 16 12 8 4 0 -10
Power Compression @ 30 GHz
28 Pout (dBm), GAIN (dB), PAE (%) 24 20 16 12 8 4 0 -10
Pout (dBm) Gain (dB) PAE (%)
Pout (dBm) Gain (dB) PAE (%)
-8
-6
-4
-2
0
2
4
6
8
10
12
14
-8
-6
-4
-2
0
2
4
6
8
10
12
INPUT POWER (dBm)
INPUT POWER (dBm)
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For price, delivery, and to place orders, please contact Hittite Microwave Corporation: 20 Alpha Road, Chelmsford, MA 01824 Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com
HMC499
v03.0908
GaAs PHEMT MMIC MEDIUM POWER AMPLIFIER, 21 - 32 GHz
Typical Supply Current vs. Vdd
Vdd (Vdc) +4.5 +5.0 +5.5 +3.0 Idd (mA) 193 200 207 191 200
Absolute Maximum Ratings
Drain Bias Voltage (Vdd1, Vdd2, Vdd3) Gate Bias Voltage (Vgg) RF Input Power (RFIN)(Vdd = +5Vdc) Channel Temperature Continuous Pdiss (T= 85 °C) (derate 16.7 mW/°C above 85 °C) Thermal Resistance (channel to die bottom) Storage Temperature Operating Temperature +5.5 Vdc -4 to 0 Vdc +20 dBm 175 °C 1.50 W 60 °C/W -65 to +150 °C -55 to +85 °C
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LINEAR & POWER AMPLIFIERS - CHIP
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+3.5 +4.0
208
Note: Amplifi er will operate over full voltage ranges shown above. Vgg adjusted to achieve Idd= 200 mA at +5V and +3.5V.
ELECTROSTATIC SENSITIVE DEVICE OBSERVE HANDLING PRECAUTIONS
Outline Drawing
Die Packaging Information [1]
Standard GP-2 (Gel Pack) Alternate [2]
[1] Refer to the “Packaging Information” section for die packaging dimensions. [2] For alternate packaging information contact Hittite Microwave Corporation.
NOTES: 1. ALL DIMENSIONS ARE IN INCHES [MM] 2. DIE THICKNESS IS .004” 3. TYPICAL BOND IS .004” SQUARE 4. BACKSIDE METALLIZATION: GOLD 5. BOND PAD METALLIZATION: GOLD 6. BACKSIDE METAL IS GROUND. 7. CONNECTION NOT REQUIRED FOR UNLABELED BOND PADS.
For price, delivery, and to place orders, please contact Hittite Microwave Corporation: 20 Alpha Road, Chelmsford, MA 01824 Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com
HMC499
v03.0908
GaAs PHEMT MMIC MEDIUM POWER AMPLIFIER, 21 - 32 GHz
Pad Descriptions
Pad Number 1 Function RFIN Description This pad is AC coupled and matched to 50 Ohms Interface Schematic
3
2-4 Vdd1, 2, 3
Power Supply Voltage for the amplifier. External bypass capacitors of 100 pF and 0.01 μF are required.
LINEAR & POWER AMPLIFIERS - CHIP
5
RFOUT
This pad is AC coupled and matched to 50 Ohms.
6
Vgg
Gate control for amplifier. Adjust to achieve Idd of 200 mA. Please follow “MMIC Amplifier Biasing Procedure” Application Note. External bypass capacitors of 100 pF and 0.01 μF are required.
Die Bottom
GND
Die bottom must be connected to RF/DC ground.
Assembly Diagram
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For price, delivery, and to place orders, please contact Hittite Microwave Corporation: 20 Alpha Road, Chelmsford, MA 01824 Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com
HMC499
v03.0908
GaAs PHEMT MMIC MEDIUM POWER AMPLIFIER, 21 - 32 GHz
Mounting & Bonding Techniques for Millimeterwave GaAs MMICs
The die should be attached directly to the ground plane eutectically or with conductive epoxy (see HMC general Handling, Mounting, Bonding Note). 50 Ohm Microstrip transmission lines on 0.127mm (5 mil) thick alumina thin film substrates are recommended for bringing RF to and from the chip (Figure 1). If 0.254mm (10 mil) thick alumina thin film substrates must be used, the die should be raised 0.150mm (6 mils) so that the surface of the die is coplanar with the surface of the substrate. One way to accomplish this is to attach the 0.102mm (4 mil) thick die to a 0.150mm (6 mil) thick molybdenum heat spreader (moly-tab) which is then attached to the ground plane (Figure 2). Microstrip substrates should brought as close to the die as possible in order to minimize bond wire length. Typical die-to-substrate spacing is 0.076mm to 0.152 mm (3 to 6 mils).
0.102mm (0.004”) Thick GaAs MMIC
Wire Bond 0.076mm (0.003”)
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LINEAR & POWER AMPLIFIERS - CHIP
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RF Ground Plane
0.127mm (0.005”) Thick Alumina Thin Film Substrate Figure 1.
Handling Precautions
Follow these precautions to avoid permanent damage. Storage: All bare die are placed in either Waffle or Gel based ESD protective containers, and then sealed in an ESD protective bag for shipment. Once the sealed ESD protective bag has been opened, all die should be stored in a dry nitrogen environment. Cleanliness: Handle the chips in a clean environment. DO NOT attempt to clean the chip using liquid cleaning systems. Static Sensitivity: strikes. Follow ESD precautions to protect against ESD
0.150mm (0.005”) Thick Moly Tab 0.254mm (0.010”) Thick Alumina Thin Film Substrate Figure 2.
0.102mm (0.004”) Thick GaAs MMIC
Wire Bond 0.076mm (0.003”)
RF Ground Plane
Transients: Suppress instrument and bias supply transients while bias is applied. Use shielded signal and bias cables to minimize inductive pick-up.
General Handling: Handle the chip along the edges with a vacuum collet or with a sharp pair of bent tweezers. The surface of the chip may have fragile air bridges and should not be touched with vacuum collet, tweezers, or fingers.
Mounting
The chip is back-metallized and can be die mounted with AuSn eutectic preforms or with electrically conductive epoxy. The mounting surface should be clean and flat. Eutectic Die Attach: A 80/20 gold tin preform is recommended with a work surface temperature of 255 °C and a tool temperature of 265 °C. When hot 90/10 nitrogen/hydrogen gas is applied, tool tip temperature should be 290 °C. DO NOT expose the chip to a temperature greater than 320 °C for more than 20 seconds. No more than 3 seconds of scrubbing should be required for attachment. Epoxy Die Attach: Apply a minimum amount of epoxy to the mounting surface so that a thin epoxy fillet is observed around the perimeter of the chip once it is placed into position. Cure epoxy per the manufacturer’s schedule.
Wire Bonding
Ball or wedge bond with 0.025mm (1 mil) diameter pure gold wire. Thermosonic wirebonding with a nominal stage temperature of 150 °C and a ball bonding force of 40 to 50 grams or wedge bonding force of 18 to 22 grams is recommended. Use the minimum level of ultrasonic energy to achieve reliable wirebonds. Wirebonds should be started on the chip and terminated on the package or substrate. All bonds should be as short as possible