AGILENT HPMX-3002

Silicon Bipolar RFIC
900 MHz Driver Amplifier
Technical Data
HPMX-3002
Features
• RFIC Medium Power
Amplifier
• 150-960 MHz Operating
Range
• +22 dBm Typ. PldB , +23 dBm
Typ. Psat @ 900 MHz
• 50 dB Typ. Power Control
Range
• 6 V, 160 mA Operation
• S0-8 Surface Mount Package
with Improved Heatsinking
Plastic S0-8 Package
Pin Configuration
Applications
• Driver Amplifier for GSM
Cellular Handsets
• Driver or Output Stage for
900 MHz ISM Band
Transmitters
• Driver or Output Stage for
Transmitters Operating in
the 150-960 MHz Range
GROUND AND
THERMAL
CONTACT
1
8
VCC1
2
7
GROUND
3
6
RFOUT AND VCC2
RFIN
4
5
POWER CONTROL
GROUND AND
THERMAL
CONTACT
Functional Block Diagram
(2)
VCC1
(1ST AND 2ND STAGES)
(6)
RFOUT AND VCC2
(3RD STAGE BIAS,
OPEN COLLECTOR)
(4)
RFIN
(1, 3, 7, 8)
GROUND
5965-9661E
(5)
POWER CONTROL
6-76
Description
Hewlett-Packard’s HPMX-3002 is
a silicon microwave monolithic
integrated circuit driver amplifier
housed in a S0-8 surface mount
plastic package. It operates over
the 150 - 960 MHz frequency
range, and at 900 MHz it produces
+23 dBm of saturated output
power, has 30 dB of small signal
gain and a 50 dB power control
range. The amplifier has a wellmatched input, and an open
collector output which provides
good linearity and efficiency and
is easy to externally match to 50
Ω for optimal power output.
This device is well suited as a
driver amplifier for European
GSM (Global System for Mobile
communications) portable and
mobile telephone systems, or as
the output stage for other low
cost applications such as 900 MHz
ISM band spread-spectrum.
The HPMX-3002 is fabricated with
Hewlett-Packard’s 15 GHz ft
ISOSAT-II process, which
combines stepper lithography, ion
implantation, self-alignment
techniques, and gold metallization
to produce RFICs with superior
performance, uniformity and
reliability .
HPMX-3002 Absolute Maximum Ratings
Symbol
Pdiss
Pin
Units
Absolute
Maximum[1]
Power Dissipation[2,3]
mW
1400
Input Power
Parameter
dBm
+5
VCC[1]
Supply Voltage
V
8
VCC[2]
Supply Voltage, 3rd Stage
V
12
Vcont
Control Voltage
V
5
Tj
Junction Temperature
°C
150
TSTG
Storage Temperatuere
°C
-65 to 150
Thermal Resistance[2]:
Θjc = 66°C/W
Notes:
1. Operation of this device above any one
of these parameters may cause permanent
damage.
2. Tc = 25 °C (Tc is defined to be the
temperature at the ends of pin 7 where it
contacts the circuit board).
3. Derate at 15.2 mW/°C for TC > 58°C.
HPMX-3002 Guaranteed Electrical Parameters, TC = 37°C, ZO = 50 Ω
VCC1 = 4.5 V, VCC2 = 6 V, PIN = - 6 dBm @ 900 MHz, output matched for maximum power
ICC1 = 65 mA nom., ICC2 = 95 mA nom. set by Vcont (pin 5) = 2.2 V (unless otherwise noted).
Symbol
Parameters and Test Conditions
Units
Min.
Typ.
PIN = -6 dBm, f = 900 MHz
dBm
22
23
40
50
Max.
Pout
Output Power
PCR
Power Control Range
f = 900 MHz,
Vcont = 0 to 2.2 V
dBm
ICC 1
Driver Stages Current
VCC 1 = 4.5 V
mA
65
75
ICC 2
Output Stage Current
VCC 2 = 6 V
mA
95
120
HPMX-3002 Summary Characterization Information, TC = 37°C, ZO = 50 Ω
VCC1 = 4.5 V, VCC2 = 6 V, Pin = -6 dBm @ 900 MHz, output matched for maximum power
ICC1 = 65 mA nom., ICC2 = 95 mA nom. set by Vcont (pin 5) = 2.2 V (unless otherwise noted).
Symbol
P1dB
Parameters and Test Conditions
Output Power at 1 dB Gain
Compression
PIN set for Pout = P 1 dB,
f = 900 MHz
Units
Typ.
dBm
22
Gss
Small Signal Gain
f = 900 MHz, Pin = -18 dBm
dB
32
IP3
Third Order Intercept Point
f1 = 900 MHz, f2 = 901 MHz
Pout per tone = 12 dBm
dBm
29
IP5
Fifth Order Intercept Point
f1 = 900 MHz, f2 = 901 MHz
Pout per tone = 12 dBm
dBm
24
NF
Noise Figure
dB
9.5
-
1.5:1
mA
2.5
VSWR in
Icont
Input Voltage Standing Wave Ratio
Control Current
Vcont = 0 to 2.2V
6-77
HPMX-3002 Pin
Description
has an operating range of 4.5 to 6
V (5 V nominal). It should be
bypassed close to RFIC body
using a 1000 pF capacitor.
Ground (pins 1,3,7,8):
This RFIC is ground sensitive. A
short path to ground with minimal
parasitics must be provided on all
ground leads to prevent stability
problems. The PC board should
be 0.032" or less in thickness.
Multiple vias should be placed
near the ground leads. Failure to
properly ground this device can
lead to positive return gain and
possible stability problems. We
suggest performing a stability
analysis using the device s
parameters and a description of
the inductance of your ground
path. A recommended board
layout is shown on the final page
of this data sheet. Pins 7 and 8
also provide the primary thermal
path for heatsinking the device.
RFin (pin 4):
The impedance of this RFIC is
well matched to 50 Ω from 100
MHz to 1100 MHz. Normally, no
additional impedance matching is
required. S-parameters are
provided should the designer need
to “fine tune” the input match. Pin
4 must be AC coupled to
generator (1000 pF typ. blocking
capacitor). The nominal drive
level is -6 dBm, and under normal
operating conditions should not
exceed 0 dBm.
Control (pin 5):
Applying a DC voltage to this pin
adjusts the gain of the last 2
stages of the RFIC over a 50 dB
range. Pin 5 has an operational
VCC1 (pin 2):
This pin provides the DC bias for
the amplifier driver stages, and
27 pF
VCC2
(4 TO 8 V,
95 mA NOM.)
8 nH
RFOUT (50 Ω)
1000 pF
OUTPUT POWER
CONTROL VOLTAGE
(2.2 V, 2.5 mA TYP.)
PIN:
VCC1
(4 TO 6 V,
65 mA NOM.)
8
7
6
5
1
2
3
4
TRANSMISSION LINES ARE 50 Ω
1000 pF
1000 pF
RFIN (50 Ω)
Figure 1. HPMX-3002 Typical 900 MHz Amplifier Use.
6-78
range of 0 to 2.5 V. The power
control function is designed for
operation in the 800 - 1000 MHz
frequency range, and decreases in
adjustment capability at lower
frequencies – refer to the
performance graphs (figure 3).
RFout and VCC2 (Pin 6):
Pin 6 connects to the open collector of the output stage. A power
match is required at this pin. The
typical match for operation
between 800 and 1000 MHz
consists of a shunt L (8 nH typ.)
and a series C (27 pF typ.), with
the series C also serving as the
blocking capacitor. The s
parameter data should be used to
generate matches for other
frequency bands.
HPMX-3002 Typical Performance, TC = 37°C, ZO = 50 Ω
Pin = -6 dBm @ 900 MHz, VCC1 = 4.5 V, VCC2 = 6 V, Vcontrol = 2.2 V, ICC1 = 66 mA, ICC2 = 95 mA nom.
Output matched for max. Pout @ 900 MHz (unless otherwise noted)
20
POUT
130
10
+85
ICC2
+37 90
19
-40
+85
17
200
400
0
-10
1.0 V
-20
0.8 V
0.6 V
600
800
50
1000
0
200
400
600
800
100
0.5
0
7V
22
5.5 V
16
60
ICC1
40
+85
-40
20
21
0
-40
5.5
-20
4.5 V
12
ICC2
-40
-30
14
10
+37
-10
0
10
20
8
30
0
200
POUT (dBm)
VCC1 (V)
Figure 5. HPMX-3002 Output Power
vs. Supply Voltage.
400
600
800
1000
FREQUENCY (MHz)
Figure 6. HPMX-3002 Current vs.
Output Power and Temperature.
24
40
0
2.5
2
18
+85
NOISE FIGURE (dB)
5V
5.3
1.5
5.0 V
CURRENT (mA)
23
1
Figure 4. HPMX-3002 Output Power
and Current vs. Control Voltage and
Temperature.
80
6V
POUT (dBm)
-40
+37
8V
5.1
20
CONTROL VOLTAGE (V)
VCC2
24
40
ICC1
-30
1000
Figure 3. HPMX-3002 Output Power
vs. Frequency and Control Voltage.
25
4.9
+85
+37 60
-40
-10
FREQUENCY (MHz)
Figure 2. HPMX-3002 Output Power
and Current vs. Frequency and
Temperature.
4.7
0
-20
-40
FREQUENCY (MHz)
20
4.5
ICC2
+85 100
+37
-40
80
+37
10
0.4 V
0.2 V
-30
15
0
120
+85
70
+37
-40
ICC1
20
-40
POUT (dBm)
110
21
CURRENT (mA)
POUT (dBm)
-40
140
POUT
POUT (dBm)
+37
23
30
2.2 V
2.0 V
1.8 V
1.6 V
1.4 V
1.2 V
+85
Figure 7. HPMX-3002 Noise Figure vs.
Frequency and VCC1 .
-30
-30
5.5 V
IM3
S21
P1dB (dBm)
GAIN (dB)
+37
+85
+37
-40
30
22
+85
-40
+37
-50
+85
-60
IM5
-40
+37
-70
4.5 V
-40
IM5
5.0 V
4.5 V
5.5 V
-50
+85
P1dB
25
840
INTERMODULAITON (dBc)
23
INTERMODULAITON (dBc)
-40
35
5.0 V
IM3
-40
880
920
21
960
FREQUENCY (MHz)
Figure 8. HPMX-3002 one dB Compressed Power and Small Signal Gain
vs. Frequency and Temperature.
-80
4
6
8
10
12
14
POUT PER TONE (dBm)
Figure 9. HPMX-3002 Intermodulation
Distortion vs. Output Power and
Temperature with
Vcontrol = 2.0 V.
6-79
-60
1.8
1.9
2
2.1
2.2
VCONTROL (V)
Figure 10. HPMX-3002 Intermodulation Distortion vs. Control Voltage and
VCC1 for Pout per tone = 12 dBm.
CURRENT (mA)
30
150
25
0
0
150
10
120
20
30
ICC1
CURRENT (mA)
RETURN LOSS (dB)
RETURN LOSS (dB)
10
20
90
ICC2
60
30
40
30
40
50
0
200
600
400
800
0
1000
400
200
600
800
1000
FREQUENCY (MHz)
FREQUENCY (MHz)
VCC1 = 4.5 V
VCC2 = 6 V
1000 pF
PIN:
1
8
2
7
3
6
BIAS
TEE
PIN = -6 dBm
ALL TRANSMISSION LINES
ARE 50 Ω
4
RFOUT (50 Ω)
3 nH
1000 pF
5
VCONTROL = 2.2 V
1.8 pF
1000 pF
Figure 14. HPMX-3002 Test Circuit Configuration.
6-80
0
200
400
600
800
1000
VCC2 (VOLTS)
Figure 12. HPMX-3002 Output Return
Loss vs. Frequency.
Figure 11. HPMX-3002 Input Return
Loss vs. Frequency.
0
Figure 13. HPMX-3002 Stage Current
vs. Supply Voltage with VCC1 = 4.5 V.
HPMX-3002 Typical Scattering Parameters, TC = 37°C, ZO = 50 Ω
Vcontrol = 1.6 V
VCC1 = 4.5 V, VCC2 = 6 V
Freq
GHz
S11
dB
S21
Mag
dB
S12
Mag
Mag
Ang
Ang
0.10
0.33
0.20
0.34
151
42.89
139.44
92
44.16
161.44
0.30
0.31
51
42.95
0.40
0.31
18
0.50
0.29
0.60
S22
Ang
Mag
Ang
-138
-60.00
0.001
143
0.91
-25
0.77
143
-53.98
0.002
152
0.75
-53
0.82
140.50
98
-53.98
0.002
146
0.65
-67
1.10
42.06
126.79
63
-47.96
0.004
148
0.65
-76
0.77
-14
41.91
124.61
29
-44.44
0.006
141
0.73
-89
0.65
0.23
-52
42.12
127.67
-10
-40.92
0.009
143
0.85
-107
0.62
0.70
0.09
-117
41.62
120.47
-60
-38.42
0.012
138
0.88
-136
0.73
0.80
0.06
66
38.19
81.23
-106
-37.08
0.014
135
0.65
-162
0.84
0.90
0.16
42
34.23
51.44
-144
-35.92
0.016
131
0.41
-179
0.94
1.00
0.19
11
29.87
31.15
-169
-33.98
0.020
130
0.31
-170
1.04
1.10
0.21
6
26.42
20.93
-165
-32.40
0.024
127
0.25
-164
1.14
HPMX-3002 Typical Scattering Parameters, TC = 37°C, ZO = 50 Ω
k
Vcontrol = 2.0 V
VCC1 = 4.5 V, VCC2 = 6 V
Freq
GHz
S11
dB
S21
Mag
dB
S12
Mag
Mag
Ang
Ang
0.10
0.33
0.20
0.31
143
45.90
197.18
83
45.15
180.94
0.30
0.28
43
43.46
0.40
0.27
11
0.50
0.25
0.60
Ang
Mag
Ang
-158
-60.00
0.001
153
0.85
-31
0.85
128
-60.00
0.001
99
0.63
-56
1.78
148.88
88
-53.98
0.002
142
0.56
-65
1.26
42.43
132.22
55
47.96
0.004
138
0.60
-74
0.87
-21
42.15
128.14
22
-44.44
0.006
147
0.70
-88
0.67
0.19
-63
42.13
127.82
-17
-41.94
0.008
143
0.80
-108
0.61
0.70
0.05
-144
41.26
115.62
-64
-39.17
0.011
135
0.81
-138
0.73
0.80
0.09
61
37.86
78.15
-107
-37.72
0.013
135
0.59
-161
0.86
0.90
0.17
38
34.07
50.54
-144
-35.92
0.016
131
0.39
-178
0.95
1.00
0.19
12
29.89
31.23
-168
-33.98
0.020
132
0.30
-169
1.04
1.10
0.21
6
26.54
21.22
166
-32.40
0.024
127
0.24
-164
1.14
6-81
S22
k
HPMX-3002 Typical Scattering Parameters, TC = 37°C, ZO = 50 Ω
Vcontrol = 2.2 V
VCC1 = 4.5 V, VCC2 = 6 V
Freq
GHz
S11
dB
S21
Mag
dB
S12
Mag
Mag
Ang
Ang
0.10
0.26
0.20
0.18
122
46.64
214.70
67
43.80
154.92
0.30
0.15
30
41.76
0.40
0.12
-1
0.50
0.08
0.60
Ang
Mag
Ang
160
-60.00
0.001
111
0.58
-30
1.70
99
-60.00
0.001
133
0.49
-33
2.53
122.46
65
-53.98
0.002
139
0.52
-40
1.64
40.36
104.17
38
-50.46
0.003
149
0.59
-52
1.22
-30
39.64
95.89
6
-44.44
0.006
148
0.66
-68
0.79
0.02
-112
39.17
90.91
-29
-41.94
0.008
142
0.71
-89
0.70
0.70
0.13
92
38.03
79.70
-71
-40.00
0.010
137
0.65
-114
0.75
0.80
0.19
51
35.15
57.23
-109
-37.72
0.013
135
0.50
-131
0.88
0.90
0.23
34
32.04
39.99
-142
-35.92
0.016
134
0.34
-143
0.99
1.00
0.24
11
28.44
26.42
-168
-34.43
0.019
132
0.29
-139
1.11
1.10
0.24
4
25.49
18.82
166
-32.77
0.023
129
0.34
-137
1.15
Part Number Ordering Information
Part Number
Option
No. of Devices
Container
HPMX-3002
-
100
Tube
HPMX-3002
#T10
1000
Reel
Package Dimensions
5.00 (0.197)
4.80 (0.188)
S0-8 Package
8
7
6
5
4.00 (0.158)
3.80 (0.150)
PIN:
1
2
3
6.20 (0.244)
5.80 (0.228)
4
0.20 (0.008)
0.10 (0.004)
0.45 (0.018)
0.35 (0.014)
1.27
(0.050)
TYP
5.20 (0.205)
4.60 (0.181)
1.75 (0.069)
1.35 (0.053)
0 DEG MIN
8 DEG MAX
0.254 (0.010)
0.15 (0.007)
NOTE: DIMENSIONS ARE IN MILLIMETERS (INCHES).
6-82
0.77 (0.030)
0.64 (0.025)
S22
k
HPMX-3002 Test Board Layout
OUT
OUT
POWER
CONTROL
POWER
CONTROL
C
VCC2
C
L
C
IC
HPMX-3002
1
VCC2
C
C
VCC1
HPMX-3002
1
H
VCC1
IN
Finished board size: 1.5" x 1.5" x 1/32"
Material: 1/32" epoxy/fiberglass, 1 oz.
copper, both sides, tin/lead coating,
both sides.
Note: “.” marks indicate drilling
locations for plated-through via holes
to the groundplane on the bottom
side of the board.
Board layed out for coil-craft #AO3T
8 nH spring-coil inductor.
6-83
H
IN