ETC SHF

SHF-0189
SHF-0189Z
Product Description
Sirenza Microdevices’ SHF-0189 is a high performance AlGaAs/GaAs
Heterostructure FET (HFET) housed in a low-cost surface-mount plastic
package. The HFET technology improves breakdown voltage while minimizing Schottky leakage current resulting in higher PAE and improved linearity.
Pb
RoHS Compliant
& Green Package
0.05 - 6 GHz, 0.5 Watt
GaAs HFET
Output power at 1dB compression for the SHF-0189 is +27 dBm when
biased for Class AB operation at 8V,100mA. The +40 dBm third order
intercept makes it ideal for high dynamic range, high intercept point requirements. It is well suited for use in both analog and digital wireless communication infrastructure and subscriber equipment including 3G, cellular, PCS,
fixed wireless, and pager systems.
The matte tin finish on Sirenza’s lead-free package utilizes a post annealing process to mitigate tin whisker formation and is RoHS compliant per EU Product Features
Directive 2002/95. This package is also manufactured with green molding
• Now available in Lead Free, RoHS
compounds that contain no antimony trioxide nor halogenated fire retarCompliant, & Green Packaging
dants.
• High Linearity Performance at 1.96 GHz
+27 dBm P1dB
+40 dBm Output IP3
+16.5 dB Gain
• High Drain Efficiency
• See App Note AN-031 for circuit details
Gain, Gmax (dB)
Typical Gain Performance (8V,100mA)
35
30
25
Gmax
20
15
10
5
Gain
Applications
• Analog and Digital Wireless Systems
• 3G, Cellular, PCS
• Fixed Wireless, Pager Systems
0
-5
0
S ym b o l
1
2
3
4
5
6
Frequency (GHz)
7
8
T e s t C o n d it io n s , 2 5 C
V D S = 8 V , ID Q = 1 0 0 m A
D e v ic e C h a r a c t e r is t ic s
Test
F re q u e n c y
U n its
M in
Typ
M ax
Z S= Z S*, Z L= Z L*
0 .9 0 G H z
1 .9 6 G H z
dB
-
2 3 .3
2 0 .1
-
Z S= Z L= 5 0 O hm s
0 .9 0 G H z
1 .9 6 G H z
dB
A p p li c a t i o n C i r c u i t
0 .9 0 G H z
1 .9 6 G H z
dB m
-
1 8 .6
1 6 .7
-
A p p li c a t i o n C i r c u i t
0 .9 0 G H z
1 .9 6 G H z
dB m
-
40
40
-
A p p li c a t i o n C i r c u i t
0 .9 0 G H z
1 .9 6 G H z
dB m
-
2 7 .2
2 7 .5
-
1 .9 6 G H z
dB
-
3 .2
384
( u n le s s o t h e r w is e n o t e d )
G m ax
S
21
M a x i m u m A v a i la b le G a i n
In s e r t i o n G a i n
[1 ]
[2 ]
G a in
P o w e r G a in
O IP 3
O u t p u t T h i r d O r d e r In t e r c e p t P o i n t
P 1dB
O u tp u t 1 d B C o m p r e s s i o n P o i n t
[2 ]
[2 ]
N F
N o is e F ig u re
A p p li c a t i o n C i r c u i t
ID
S a tu r a te d D r a i n C u r r e n t
V
m
T r a n c o n d u c ta n c e
V
P
P i n c h - O f f V o lt a g e
S S
g
V
[1 ]
G S
G a t e - S o u r c e B r e a k d o w n V o lt a g e
B V
G D
G a t e - D r a i n B r e a k d o w n V o lt a g e
T h e rm a l R e s i s ta n c e
V
O p e r a t i n g V o lt a g e
D S
ID Q
P
D IS S
O p e r a tin g C u rr e n t
P o w e r D i s s i p a ti o n
[3 ]
[3 ]
294
144
198
252
V
- 3 .0
-1 .9
-1 .0
IG S = 1 . 2 m A , d r a i n o p e n
V
-
-1 7
-1 5
IG D = 1 . 2 m A , V
V
-
-2 2
-1 7
C /W
-
80
-
V
-
-
8 .0
m A
-
-
160
W
-
-
0 .8
V
B V
R th
204
[1 ]
[1 ]
, V
D S P
G S
= 0V
2 0 .2
m A
D S P
, V
1 8 .4
1 4 .7
m S
D S
= V
1 6 .6
D
= V
S
= - 0 .2 5 V
G S
D
= 2 . 0 V , ID S = 0 . 6 m A
S
G S
= - 5 .0 V
ju n c t i o n - t o - le a d
d ra in -s o u rc e
d ra in -s o u rc e , q u ie s c e n t
[3 ]
o
[1] 100% tested - Insertion gain tested using a 50 ohm contact board (no matching circuitry) during final production test.
[2] Sample tested - Samples pulled from each wafer/package lot. Sample test specifications are based on statistical data from sample test measurements. The test fixture is an engineering application circuit board.
The application circuit was designed for the optimum combination of linearity, P1dB, and VSWR.
[3] Maximum recommended power dissipation is specified to maintain TJ<150C at TL=85C. VDS * IDQ<0.8W is recommended for continuous reliable operation.
The information provided herein is believed to be reliable at press time. Sirenza Microdevices assumes no responsibility for inaccuracies or omissions.
Sirenza Microdevices assumes no responsibility for the use of this information, and all such information shall be entirely at the user’s own risk. Prices and specifications are subject to change without notice. No patent
rights or licenses to any of the circuits described herein are implied or granted to any third party. Sirenza Microdevices does not authorize or warrant any Sirenza Microdevices product for use in life-support devices and/or
systems. Copyright 2003 Sirenza Microdevices, Inc. All worldwide rights reserved.
303 S. Technology Court, Broomfield, CO 80021
Phone: (800) SMI-MMIC
1
http://www.sirenza.com
EDS-101240 Rev E
SHF-0189 0.5 Watt HFET
Absolute Maximum Ratings
Parameter
MTTF is inversely proportional to the device junction
temperature. For junction temperature and MTTF
considerations the bias condition should also
satisfy the following expression:
PDC < (TJ - TL) / RTH
where:
PDC = IDS * VDS (W)
TJ = Junction Temperature (°C)
TL = Lead Temperature (pin 4) (°C)
RTH = Thermal Resistance (°C/W)
Symbol
Value
Unit
Drain Current
IDS
200
mA
Forward Gate Current
IGSF
1.2
mA
Reverse Gate Current
IGSR
1.2
mA
Drain-to-Source Voltage
VDS
+9.0
V
Gate-to-Source Voltage
VGS
<-5 or >0
V
RF Input Power
PIN
200
mW
Operating Lead Temperature
TL
See Graph
°C
Storage Temperature Range
Tstor
-40 to +150
°C
Power Dissipation
P DISS
See Graph
W
TJ
+165
°C
Channel Temperature
Total Dissipated Power (W)
MTTF @ TJ=150C exceeds 1E7 hours
Operation of this device beyond any one of these limits may cause
permanent damage. For reliable continuous operation, the device
voltage and current must not exceed the maximum operating values
specified in the table on page 1.
Power Derating Curve
1.50
12345678
12345678
12345678
12345678 This area not recommended
12345678
12345678 for continuous reliable operation.
1.25
1.00
0.75
0.50
Operational (Tj<150C)
0.25
ABS MAX (Tj<165C)
0.00
-40
-15
10
35
60
85
Lead Temperature (C)
110
135
160
Typical Performance - Engineering Application Circuits (See App Note AN-031)
Freq
(MHz)
V DS
(V)
IDQ
(mA)
P1dB
(dBm)
OIP3*
(dBm)
Gain
(dB)
S11
(dB)
S22
(dB)
NF
(dB)
4.7
900
8
100
27.2
40
18.6
-25
-13
1960
8
100
27.6
40
16.7
-20
-8
3.2
2140
8
100
27.5
40
15.2
-24
-14
3.8
2450
8
100
27.3
40
15.2
-16
-14
3.1
* POUT= +15dBm per tone, 1MHz tone spacing
Data above represents typical performance of the application circuits noted in Application Note AN-031.
Refer to the application note for additional RF data, PCB layouts, and BOMs for each application circuit. The
application note also includes biasing instructions and other key issues to be considered. For the latest
application notes please visit our site at www.sirenza.com or call your local sales representative.
303 S. Technology Court, Broomfield, CO 80021
Phone: (800) SMI-MMIC
2
http://www.sirenza.com
EDS-101240 Rev E
SHF-0189 0.5 Watt HFET
De-embedded S-Parameters (ZS=ZL=50 Ohms, VDS=8V, IDS=100mA, 25° C)
-10
-15
-20
-25
-30
-35
-40
-45
-50
Isolation
Gmax
Gain
0
1
2
3
4
5
6
7
Isolation (dB)
Gain, Gmax (dB)
Gain & Isolation
35
30
25
20
15
10
5
0
-5
8
Frequency (GHz)
S11 vs Frequency
S22 vs Frequency
1.0
1.0
6 GHz
2.0
0.5
2.0
0.5
4 GHz
0.2
0.2
5.0
3 GHz
0.0
0.2
0.5
1.0
2.0
5.0
8 GHz
6 GHz
8 GHz
5.0
0.0
inf
0.2
4 GHz 0.5
1.0
2.0
5.0
inf
3 GHz
2 GHz
0.2
2 GHz
S22
0.2
5.0
5.0
1 GHz
S11
0.5
2.0
0.5
2.0
1 GHz
1.0
1.0
Note: S-parameters are de-embedded to the device leads with ZS=Z L=50Ω. The data represents typical performace of the device.
De-embedded s-parameters can be downloaded from our website (www.sirenza.com).
DC-IV Curves
0.35
0.3
IDS (A)
0.25
0.2
VGS = -2.0 to 0V, 0.2V steps
T=25° C
0.15
0.1
0.05
0
0
1
2
3
4
5
6
7
8
VDS (V)
303 S. Technology Court, Broomfield, CO 80021
Phone: (800) SMI-MMIC
3
http://www.sirenza.com
EDS-101240 Rev E
SHF-0189 0.5 Watt HFET
Pin Description
Gate
2
Source
3
Drain
4
Source
Description
RF Input
Part Number
Reel Size
Devices/Reel
SHF-0189
7"
1000
SHF-0189Z
7"
1000
Connection to ground. Use via holes to reduce lead
inductance. Place vias as close to ground leads as possible.
RF Output
Same as Pin 2
Part Symbolization
The part will be symbolized with the “H1”
designator and a dot signifying pin 1 on the top
surface of the package.
Mounting and Thermal Considerations
It is very important that adequate heat sinking be provided to
minimize the device junction temperature. The following items
should be implemented to maximize MTTF and RF
performance.
1. Multiple solder-filled vias are required directly below the
ground tab (pin 4). [CRITICAL]
2. Incorporate a large ground pad area with multiple platedthrough vias around pin 4 of the device. [CRITICAL]
3. Use two point board seating to lower the thermal
resistance between the PCB and mounting plate. Place
machine screws as close to the ground tab (pin 4) as
possible. [RECOMMENDED]
4. Use 2 ounce copper to improve the PCB’s heat spreading
capability. [RECOMMENDED]
Package Dimensions
3
.161
.016
.177 .068
.019 .118
1
2
Function
1
4
Pin #
Part Number Ordering Information
.096
.041
.015
.059
Recommended Mounting Configuration for
Optimum RF and Thermal Performance
DIMENSIONS ARE IN INCHES
H1Z
2
3
1
2
H1
1
1
1
4
3
SHF-0x89
4
2
Plated Thru
Holes
(0.020" DIA)
2
3
Ground Plane
3
Machine
Screws
Caution: ESD sensitive
Appropriate precautions in handling, packaging and
testing devices must be observed.
303 S. Technology Court, Broomfield, CO 80021
Phone: (800) SMI-MMIC
4
http://www.sirenza.com
EDS-101240 Rev E