HMC339


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supply formats:
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storage systems for secure long
term product support
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HMC339
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HMC339
v02.1007
3
GaAs MMIC SUB-HARMONICALLY
PUMPED MIXER, 33 - 42 GHz
Typical Applications
Features
The HMC339 is ideal for:
Integrated LO Amplifier: +2 dBm Input
• 33 to 42 GHz Microwave Radios
Sub-Harmonically Pumped (x2) LO
• Up and Down Converter for
Point to Point Radios
High 2LO/RF Isolation: > 37 dB
Die Size: 1.32 x 0.81 x 0.1 mm
MIXERS - SUB-HARMONIC - CHIP
• Satellite Communication Systems
Functional Diagram
General Description
The HMC339 chip is a sub-harmonically pumped (x2)
MMIC mixer with an integrated LO amplifier which can
be used as an upconverter or downconverter. The
chip utilizes a GaAs PHEMT technology that results
in a small overall chip area of 1.07mm2. The 2LO to
RF isolation is excellent eliminating the need for additional filtering. The LO amplifier is a single bias (+3V to
+4V) two stage design with only +2 dBm nominal drive
requirement. All data is measured with the chip in a 50
ohm test fixture connected via 0.025mm (3 mil) ribbon
bonds of minimal length <0.31 mm (<12 mils).
Electrical Specifi cations, TA = +25° C, As a Function of Vdd
IF = 1 GHz
LO = +2 dBm & Vdd = +4V
Parameter
Min.
Typ.
Max.
IF = 1 GHz
LO = +2 dBm & Vdd = +3V
Min.
Typ.
Frequency Range, RF
33 - 42
33 - 38
GHz
Frequency Range, LO
16.5 - 21
16.5 - 19
GHz
Frequency Range, IF
DC - 3
DC - 3
GHz
Conversion Loss
10
13
10
12
dB
Noise Figure (SSB)
10
13
10
12
dB
2LO to RF Isolation
27
37
23
37
2LO to IF Isolation
30
40
25
40
dB
IP3 (Input)
5
10
3
8
dBm
1 dB Compression (Input)
-4
0
-5
-1
dBm
Supply Current (Idd)
28
38
25
dB
38
*Unless otherwise noted, all measurements performed as downconverter, IF= 1 GHz.
3 - 50
Units
Max.
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
mA
HMC339
v02.1007
GaAs MMIC SUB-HARMONICALLY
PUMPED MIXER, 33 - 42 GHz
Conversion Gain vs.
Temperature @ LO = +2 dBm, Vdd= +4V
Conversion Gain vs.
Temperature @ LO = +2 dBm, Vdd= +3V
0
CONVERSION GAIN (dB)
CONVERSION GAIN (dB)
+ 25 C
-4
+ 85 C
- 55 C
-8
-12
-16
-20
+ 25 C
+ 85 C
- 55 C
-4
-12
-16
-20
30
31
32
33
34
35
36
37
38
39
40
41
42
30
31
32
33
FREQUENCY (GHz)
35
36
37
38
39
40
41
42
39
40
41
42
Conversion Gain
vs. LO Drive @ Vdd = +3V
0
0
0 dBm
+ 2 dBm
+ 4 dBm
-4
CONVERSION GAIN (dB)
CONVERSION GAIN (dB)
34
FREQUENCY (GHz)
Conversion Gain
vs. LO Drive @ Vdd = +4V
-8
-12
-16
-20
0 dBm
+ 2 dBm
+ 4 dBm
-4
-8
-12
-16
-20
30
31
32
33
34
35
36
37
38
39
40
41
42
30
31
32
33
FREQUENCY (GHz)
34
35
36
37
38
FREQUENCY (GHz)
Isolation @ LO = +2 dBm, Vdd = +4V
Isolation @ LO = +2 dBm, Vdd = +3V
10
10
LO/RF
0
-10
RF/IF
-20
-30
2LO/RF
-40
LO/RF
0
LO/IF
ISOLATION (dB)
ISOLATION (dB)
3
-8
MIXERS - SUB-HARMONIC - CHIP
0
LO/IF
-10
RF/IF
-20
-30
2LO/RF
-40
2LO/IF
-50
2LO/IF
-50
-60
-60
30
31
32
33
34
35
36
37
38
FREQUENCY (GHz)
39
40
41
42
30
31
32
33
34
35
36
37
38
39
40
41
42
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
3 - 51
HMC339
v02.1007
GaAs MMIC SUB-HARMONICALLY
PUMPED MIXER, 33 - 42 GHz
Input IP3 vs. LO Drive @ Vdd = +4V*
Input IP3 vs. LO Drive @ Vdd = +3V*
20
20
16
IP3 (dBm)
0 dBm
+ 2 dBm
+ 4 dBm
12
8
4
0 dBm
+ 2 dBm
+ 4 dBm
12
8
4
0
0
33
34
35
36
37
38
39
40
41
33
34
35
36
37
38
FREQUENCY (GHz)
FREQUENCY (GHz)
Input IP3 vs. Temperature
@ LO = +2 dBm, Vdd = +4V*
Input IP3 vs. Temperature
@ LO = +2 dBm, Vdd = +3V*
20
16
IP3 (dBm)
+ 25 C
+ 85 C
- 55 C
12
8
4
40
41
39
40
41
+ 25 C
+ 85 C
- 55 C
12
8
4
0
0
33
34
35
36
37
38
39
40
41
33
34
35
FREQUENCY (GHz)
36
37
38
FREQUENCY (GHz)
Input IP2 vs. LO Drive @ Vdd = +4V*
Input IP2 vs. LO Drive @ Vdd = +3V*
70
70
60
60
0 dBm
+ 2 dBm
+ 4 dBm
0 dBm
+ 2 dBm
+ 4 dBm
50
IP2 (dBm)
50
IP2 (dBm)
39
20
16
IP3 (dBm)
MIXERS - SUB-HARMONIC - CHIP
3
IP3 (dBm)
16
40
30
40
30
20
20
10
10
0
0
33
34
35
36
37
38
39
40
41
FREQUENCY (GHz)
33
34
35
36
37
38
39
FREQUENCY (GHz)
* Two-tone input power = -10 dBm each tone, 1 MHz spacing.
3 - 52
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
40
41
HMC339
v02.1007
GaAs MMIC SUB-HARMONICALLY
PUMPED MIXER, 33 - 42 GHz
Input IP2 vs. Temperature
@ LO = +2 dBm, Vdd = +4V*
Input IP2 vs. Temperature
@ LO = +2 dBm, Vdd = +3V*
70
60
+ 25 C
+ 85 C
- 55 C
50
IP2 (dBm)
50
IP2 (dBm)
60
+ 25 C
+ 85 C
- 55 C
40
30
30
20
20
10
10
0
0
33
34
35
36
37
38
39
40
41
33
34
35
36
37
38
FREQUENCY (GHz)
Input P1dB vs. Temperature
@ LO = +2 dBm, Vdd = +4V
Input P1dB vs. Temperature
@ LO = +2 dBm, Vdd = +3V
10
10
8
8
6
6
4
4
P1dB (dBm)
P1dB (dBm)
FREQUENCY (GHz)
2
0
-2
-4
-6
-8
37
38
+ 25 C
+ 85 C
- 55 C
0
-10
36
39
40
34
35
36
FREQUENCY (GHz)
37
38
39
40
FREQUENCY (GHz)
RF & LO Return Loss
@ LO = +2 dBm, Vdd = +4V
IF Return Loss
@ LO = +2 dBm, Vdd = +4V
0
-5
-5
RETURN LOSS (dB)
0
-10
LO
RF
-15
41
-2
-10
35
40
2
-8
34
39
-4
+ 25 C
+ 85 C
- 55 C
-6
RETURN LOSS (dB)
3
40
MIXERS - SUB-HARMONIC - CHIP
70
-20
IF
-10
-15
-20
0
5
10
15
20
25
30
35
40
FREQUENCY (GHz)
0
1
2
3
4
5
6
7
8
9
10
FREQUENCY (GHz)
* Two-tone input power = -10 dBm each tone, 1 MHz spacing.
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
3 - 53
HMC339
v02.1007
GaAs MMIC SUB-HARMONICALLY
PUMPED MIXER, 33 - 42 GHz
Upconverter Performance
Conversion Gain, LO = +2 dBm, Vdd = +4V
3 - 54
0
0
-4
-4
CONVERSION GAIN (dB)
MIXERS - SUB-HARMONIC - CHIP
3
CONVERSION GAIN (dB)
IF Bandwidth @ LO = +2 dBm
-8
-12
Vdd= +3V
Vdd= +4V
-16
-20
-8
-12
Vdd= +4V
Vdd= +3V
-16
-20
0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
5
26
28
30
32
FREQUENCY (GHz)
34
nLO
±5
-2
44
-1
±4
±3
40
42
±1
0
53
1
55
47
RF = 39 GHz @ -10 dBm
LO = 19 GHz @ +2 dBm
All values in dBc below IF power level.
Measured as downconverter
42
nLO
±2
mIF
±5
±4
±3
±2
±1
-2
0
2
38
MxN Spurious @ RF Port, Vdd = +4V
MxN Spurious @ IF Port, Vdd = +4V
mRF
36
FREQUENCY (GHz)
18
-14
X
42
13
0
30
-1
X
36
0
13
-20
1
X
36
3
37
54
2
IF = 1 GHz @ -10 dBm
LO = 19 GHz @ +2 dBm
All values in dBc below RF power level.
Measured as upconverter
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
HMC339
v02.1007
GaAs MMIC SUB-HARMONICALLY
PUMPED MIXER, 33 - 42 GHz
Absolute Maximum Ratings
RF / IF Input (Vdd = +5V)
+13 dBm
LO Drive (Vdd = +5V)
+13 dBm
Vdd
+5.5V
Continuous Pdiss (Ta = 85 °C)
(derate 2.64 mW/°C above 85 °C)
238 mW
Storage Temperature
-65 to +150 °C
Operating Temperature
-55 to +85 °C
ELECTROSTATIC SENSITIVE DEVICE
OBSERVE HANDLING PRECAUTIONS
MIXERS - SUB-HARMONIC - CHIP
3
Outline Drawing
Die Packaging Information [1]
Standard
Alternate
GP-2 (Gel Pack)
[2]
NOTES:
1. ALL DIMENSIONS IN INCHES (MILLIMETERS)
2. ALL TOLERANCES ARE ±0.001 (0.025)
3. DIE THICKNESS IS 0.004 (0.100) BACKSIDE IS GROUND
4. BOND PADS ARE 0.004 (0.100) SQUARE
[1] Refer to the “Packaging Information” section for die
packaging dimensions.
[2] For alternate packaging information contact Hittite
Microwave Corporation.
5. BOND PAD SPACING, CTR-CTR: 0.006 (0.150)
6. BACKSIDE METALLIZATION: GOLD
7. BOND PAD METALLIZATION: GOLD
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
3 - 55
HMC339
v02.1007
GaAs MMIC SUB-HARMONICALLY
PUMPED MIXER, 33 - 42 GHz
Pad Descriptions
Pad Number
MIXERS - SUB-HARMONIC - CHIP
3
3 - 56
Function
Description
1
Vdd
Power supply for the LO Amplifier. An external RF bypass
capacitor of 100 - 330 pF is required. A MIM border capacitor
is recommended. The bond length to the capacitor should be
as short as possible. The ground side of the capacitor should
be connected to the housing ground.
2
RF
This pad is AC coupled
and matched to 50 Ohm.
3
IF
This pad is DC coupled and should be DC blocked
externally using a series capacitor whose value has been
chosen to pass the necessary IF frequency range. Any applied
DC voltage to this pin will result in die non-function and possible die failure.
4
LO
This pad is AC coupled
and matched to 50 Ohm.
Interface Schematic
Assembly Diagram
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
HMC339
v02.1007
GaAs MMIC SUB-HARMONICALLY
PUMPED MIXER, 33 - 42 GHz
Mounting & Bonding Techniques for Millimeterwave GaAs MMICs
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).
0.102mm (0.004”) Thick GaAs MMIC
3 mil Ribbon Bond
0.076mm
(0.003”)
RF Ground Plane
Microstrip substrates should be brought as close to the die as possible in order
to minimize ribbon bond length. Typical die-to-substrate spacing is 0.076mm (3
mils). Gold ribbon of 0.075 mm (3 mil) width and minimal length <0.31 mm (<12
mils) is recommended to minimize inductance on RF, LO & IF ports.
0.127mm (0.005”) Thick Alumina
Thin Film Substrate
An RF bypass capacitor should be used on the Vdd input. A 100 pF single layer
capacitor (mounted eutectically or by conductive epoxy) placed no further than
0.762mm (30 Mils) from the chip is recommended.
Handling Precautions
Figure 1.
0.102mm (0.004”) Thick GaAs MMIC
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: Follow ESD precautions to protect against ESD strikes.
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 has fragile air bridges and
should not be touched with vacuum collet, tweezers, or fingers.
3 mil Ribbon Bond
0.076mm
(0.003”)
RF Ground Plane
0.150mm (0.005”) Thick
Moly Tab
0.254mm (0.010”) Thick Alumina
Thin Film Substrate
Figure 2.
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.
3
MIXERS - SUB-HARMONIC - CHIP
The die should be attached directly to the ground plane eutectically or with
conductive epoxy (see HMC general Handling, Mounting, Bonding Note).
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
RF bonds made with 0.003” x 0.0005” ribbon are recommended. These bonds should be thermosonically bonded with a force of
40-60 grams. DC bonds of 0.001” (0.025 mm) diameter, thermosonically bonded, are recommended. Ball bonds should be made
with a force of 40-50 grams and wedge bonds at 18-22 grams. All bonds should be made with a nominal stage temperature of 150
°C. A minimum amount of ultrasonic energy should be applied to achieve reliable bonds. All bonds should be as short as possible,
less than 12 mils (0.31 mm).
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
3 - 57