ETC PPA

H
Avantek Products
Thin-Film Cascadable Amplifier
5 to 1000 MHz
Technical Data
UTO/UTC/PPA 1006 Series
Features
Description
Pin Configuration
• Frequency Range: 5 to
1000␣MHz
The 1006 Series is a medium-gain,
thinfilm bipolar RF amplifier using
resistive feedback and active bias
for stability over temperature and
bias variations. Inductive networks maintain good VSWR while
RF is coupled through input and
output blocking capacitors. The
1006 Series amplifiers are available in three packages: the surface
mount hermetic PP-38 (.375 in. x
.375 in.) case, the TO- 8 hermetic
case and the connectorized TC-1
case.
UTO—TO-8T
• High Dynamic Range
• High Output Power:
+18.5 dBm (Typ)
• Noise Figure: 5.0 dB (Typ)
• Temperature Compensated
• Surface Mount Option
Applications
• IF/RF Amplification
• Surface Mount Assembly
GROUND
RF IN
RFOUT
V+
CASE GROUND
UTC—TC-1
RF IN
RF OUT
V+
PPA—PP-38
V+
RF IN
RF OUT
GROUND
Schematic
Maximum Ratings
Parameter
V+
RFOUT
0
200
400
600
Frequency, MHz
800
1000
+17 Volts
+13 dBm
–55 to +100°C
–62 to +150°C
+100°C
5.0
Noise Figure, dB
DC
13.0 Voltage
Continuous
RF Input Power
12.5
Operating
Case
Temperature
12.0
Storage
Temperature
11.5
“R”
Series
Burn-In Temperature
11.0
Gain, dB
RFIN
Maximum
Noise Figure
Gain
4.5
4.0
3.5
3.0
0
200
1
Thermal Characteristics
θJC
Active Transistor Power Dissipation
Junction Temperature Above Case Temperature
MTBF (MIL-HDBK-217E, AUF @ 90°C)
400
600
800
1000
Frequency, MHz
75°C/W
640 mW
48°C
743,600 Hrs.
Note 1: For further information, see Reliability Screening, Pub. 5963-3240E.
Weight: (typical) UTO—2.1 grams; UTC—21.5 grams
2
Electrical Specifications
(Measured in 50 Ω system @ +15 VDC nominal unless otherwise noted)
Symbol
BW
GP
—
NF
P1dB
—
—
IP3
IP2
HP2
ID
Typical
Guaranteed Specifications
TC = 25°C TC = 0 to 50°C TC = –55 to +85°C
Characteristic
5-1000
11.0
±1.0
6.0
+17.0
2.0:1
2.0:1
—
—
—
—
5-1000
12.0
±0.3
4.8
+18.5
<1.3:1
<1.3:1
+27.0
+30.0
+36.0
70
Frequency Range
Small Signal Gain (Min.)
Gain Flatness (Max.)
Noise Figure (Max.)
Power Output @ +1 dB Comp. (Min.)
Input VSWR (Max.)
Output VSWR (Max.)
Two Tone 3rd Order Intercept Point
Two Tone 2nd Order Intercept Point
One Tone 2nd Harmonic Intercept Point
DC Current
Unit
MHz
dB
dB
dB
dBm
—
—
dBm
dBm
dBm
mA
5-1000
10.5
±1.0
6.5
+16.0
2.0:1
2.0:1
—
—
—
—
Typical Performance Over Temperature (@ +15 VDC unless otherwise noted)
Key: +25°C
+85°C
-55°C
V+
Noise Figure
Gain
5.0
RFIN
RFOUT
Noise Figure, dB
Gain, dB
13.0
12.5
12.0
11.5
4.5
4.0
3.5
3.0
11.0
0
200
400
600
800
1000
0
200
Frequency, MHz
Input VSWR
Power Output
@ 1 dB Gain
Compression, dBm
Power Output
400
600
800
1000
800
800
1000
Frequency, MHz
Output VSWR
20.0
2.0
2.0
19.5
1.75
1.75
VSWR
19.0
19.0
18.5
VSWR
19.5
1.5
1.25
400
18.0
200
0
800
400
600
600
600
Frequency, MHz
1.0
800
0
1000
200
Frequency, MHz
30
25
200
400
1000
600
800
600
800
Frequency, MHz
1.0
1000
0
55
45
50
50
45
40
35
25
35
0
200
400
600
600
Frequency, MHz
400
600
600
Second-Harmonic Intercept Point
50
40
200
Frequency, MHz
30
25
20
0
800
800
HP2, dBm
IP2, dBm
IP3, dBm
35
400
Second-Order Intercept Point
Third-Order Intercept Point
40
35
1.5
1.25
1000
800
800
40
40
35
35
30
30
25
0
200
200
400
600
600
Frequency, MHz
800
800
1000
3
Automatic Network Analyzer Measurements (Typical production unit @ +25°C ambient)
Numerical Readings
FREQUENCY
MHz
100.0
150.0
200.0
250.0
300.0
350.0
400.0
450.0
500.0
550.0
600.0
650.0
700.0
750.0
800.0
850.0
900.0
950.0
1000.0
1050.0
1100.0
1200.0
1300.0
1400.0
1500.0
1600.0
1700.0
1800.0
1900.0
2000.0
Bias = 15.00 Volts
VSWR
IN
GAIN
dB
PHASE
DEGREES
PHASE
DEV
GROUP DELAY
ns
VSWR
OUT
ISOLATION
dB
1.44
1.43
1.42
1.40
1.38
1.36
1.34
1.33
1.32
1.31
1.29
1.27
1.27
1.27
1.28
1.27
1.27
1.28
1.28
1.28
1.29
1.36
1.58
2.11
3.20
5.16
7.80
10.73
13.12
15.53
12.63
12.55
12.46
12.40
12.34
12.27
12.20
12.13
12.10
12.12
12.13
12.11
12.09
12.04
11.97
11.97
11.96
11.96
12.06
11.99
12.03
11.88
11.73
11.37
10.30
8.32
5.94
3.46
.79
–1.82
170.36
165.04
159.97
154.76
149.83
145.02
139.96
135.07
130.23
125.50
120.91
116.24
111.20
106.16
100.68
95.13
89.38
83.76
78.20
72.66
66.85
52.69
37.09
18.41
–.79
–20.98
–38.40
–50.25
–62.74
–74.60
–.01
–.31
–.35
–.53
–.43
–.22
–.25
–.11
.07
.36
.81
1.17
1.16
1.15
.69
.17
–.55
–1.13
–1.67
—
—
—
—
—
—
—
—
—
—
—
.00
.29
.29
.28
.27
.27
.28
.27
.27
.26
.26
.27
.28
.29
.31
.31
.32
.31
.31
.32
.36
.39
.47
.54
.57
.51
.44
.32
.30
.00
1.20
1.20
1.20
1.20
1.19
1.18
1.16
1.15
1.12
1.10
1.07
1.04
1.03
1.06
1.10
1.14
1.19
1.24
1.30
1.36
1.42
1.55
1.72
1.95
2.23
2.61
2.95
3.25
3.60
3.76
17.41
17.30
17.35
17.42
17.46
17.51
17.54
17.61
17.59
17.54
17.47
17.35
17.27
17.17
17.13
17.10
16.94
16.95
16.85
16.78
16.72
16.39
16.22
16.52
17.43
18.99
20.62
22.50
23.46
24.62
LINEARIZATION RANGE: 100.0 to 1000.0 MHz
S-Parameters
Bias = 15.00 Volts
S21
S11
FREQUENCY
MHz
Mag
Ang
100.00
200.00
300.00
400.00
500.00
600.00
700.00
800.00
900.00
1000.00
1100.00
1200.00
1300.00
1400.00
1500.00
1600.00
1700.00
1800.00
1900.00
2000.00
.184
.174
.161
.152
.143
.131
.142
.142
.141
.154
.159
.185
.258
.398
.572
.711
.786
.786
.363
.788
–177.8
176.9
176.3
177.7
–179.2
–172.5
–162.1
–156.6
–149.4
–138.0
–124.6
–108.7
–93.3
–90.1
–96.1
–107.1
–119.3
–133.4
–136.6
–112.6
S12
S22
dB
Ang
dB
Ang
Mag
Ang
12.616
12.453
12.369
12.265
12.222
12.195
12.085
11.907
11.869
11.954
11.904
11.761
11.526
11.044
9.645
7.102
3.672
–.551
–.896
–.753
170.2
159.9
149.6
139.9
129.3
119.4
109.4
98.8
87.2
76.0
84.2
49.3
32.6
12.7
–7.7
–29.2
–46.4
–56.2
–23.7
–65.2
–17.438
–17.342
–17.451
–17.464
–17.503
–17.384
–17.275
–17.171
–17.050
–16.956
–16.872
–16.509
–16.393
–16.885
–18.062
–20.192
–22.673
–26.297
–25.231
–23.488
–1.3
–2.3
–3.9
–6.0
–8.5
–11.6
–14.6
–17.5
–21.6
–24.6
–29.7
–36.6
–45.8
–60.1
–75.1
–87.9
–95.7
–92.6
–54.9
–89.8
.093
.089
.085
.076
.064
.046
.017
.022
.069
.126
.186
.243
.306
.370
.432
.491
.531
.556
.532
.562
164.3
151.6
138.9
126.1
110.8
98.9
79.6
–90.5
–108.1
–121.5
–137.4
–158.5
172.1
136.0
96.5
60.7
31.7
6.9
–14.4
–26.9
4
Product Options
UTO – 509R
Model Number Prefix
UTOUTMPPA-
Screening Option
Blank = No Screening
R = R-Series Screening
For more information on R-Series screening,
see Reliability Screening, Pub. 5963-3240E.
Model Number
UTC – 509-1
Model Number Prefix
UTCConnector Option
For TC-1 case the only connector option
available is the -1. The -1 option consists
of a SMA Female connector on both the
input and output (see note).
Model Number
Note: R-Series screening is not available in the TC-1 case as the case is non-hermetic.
Case Drawings
TO-8T
.300
TYP
.200
+.002
.017 - 001
.150
TYP
GROUND
RF OUT
3
GLASS RING
.060 DIA TYP
(3X)
2
.50
.450
DIA DIA MAX
4
.150
TYP
1
45
CASE
GROUND
.031
.031
.22
MIN
RF IN
V+
APPROXIMATE WEIGHT 2.1 GRAMS
NOTES (UNLESS OTHERWISE SPECIFIED):
1. DIMENSIONS ARE SPECIFIED IN INCHES
2. TOLERANCES:
xx ± .02
xxx ± .010
5
Case Drawings
TC-1
.820
1.000
RF IN
RFOUT
V+
.460
.890
PRODUCT MARKING
AREA
AGC (IF REQUIRED)
.38
(2) PL
.460
DC INPUT
.500
.350
.310
.890
.350
SMA JACK (FEMALE)
(2) PL
.310
.19
.100
GND
.24
.640
.180
.905
2-56 UNC-2B x .15 DEEP
THREADED INSERT
(4) PL
.250
.095
.570
TYPICAL WEIGHT WITH CONNECTORS = 21.5 GRAMS
NOTES: 1. THE TC-1 CASE IS A NON-HERMETIC CASE.
2. THE ONLY CONNECTOR OPTION AVAILABLE FOR THE TC-1 CASE IS THE –1, SMA FEMALE CONNECTORS AT BOTH INPUT AND OUTPUT PORTS.
NOTES (UNLESS OTHERWISE SPECIFIED):
1. DIMENSIONS ARE SPECIFIED IN INCHES
2. TOLERANCES:
xx ± .02
xxx ± .010
H
Case Drawings
PP-38
.375 x .375 PLANARPAK SURFACE MOUNTED COMPONENTS
.050 ± .010
(8) PLCS.
.375 SQ.
.150 ± .010
.015
.010 (4) PLCS
4
.040
(4) PLCS
.010
(4) PLCS.
.040
1
CL
3
CL
.015 + .002
(4) PLCS
.010 R
(4) PLCS.
"A"
.030
(3) PLCS
NOTE 5
2
.035R
(4) PLCS
.006
.004
DETAIL "A"
TYPICAL WEIGHT 0.5 GRAMS
PIN DESIGNATION
CASE
1
2
3
4
PP-38
RFIN
GROUND
RFOUT
V+
PP-38M
RF
LO
IF
N/C
PP-38F
RFIN
GROUND
RFOUT
GROUND
NOTES (UNLESS OTHERWISE SPECIFIED):
1. DIMENSIONS ARE SPECIFIED IN INCHES
2. TOLERANCES: xxx ± .005
3. LEADS ARE FOR TESTING ONLY AND MAY BE
TRIMMED FLUSH AT TIME OF INSTALLATION.
4. N/C = NOT CONNECTED
5. PIN 2 IS NOT AT GROUND POTENTIAL FOR
PP-38M. IT LOOKS THE SAME AS PINS 1, 3,
AND 4.
Recommended Assembly Procedure
1. Chemically clean the PC board and the unit to be mounted using a vapor degreaser or
acetone followed by an isopropol alcohol wash. Do not use ultrasonic cleaning.
2. Mask the backside of the PC board to prevent solder from reflowing through the plated
thru-holes causing a rough ground plane surface. A suggested masking material is 2 mil
thick Kapton® film with silicone adhesive back (Permacel part #P-222).
3. Apply solder cream (suggest Multicore SN62PRMAB3 or equivalent) using screen
printing techniques or careful hand application. A layer 4 to 6 mils thick is adequate.
4. Reflow of the unit to the board may be done in many ways. Using a hot plate is one of the
most simple. During reflow, pressure (with a clamping arrangement) on the unit is
recommended, but not absolutely necessary. Absolute maximum reflow temperature is
260°C for not more than 10 seconds.
5. Chemically reclean the unit using the procedures given in step one. Make sure that a flux
remover is used which is appropriate for the type of solder cream used (Multicore PC81
is the recommended flux remover for the above mentioned cream).
It should be noted that there are many alternatives for component attachment. This procedure
has been found to be simple and effective. For more detailed instructions on how to use
PlanarPak Products, please see the application note “PlanarPak Users Information”
Pub.␣5963-3232E.
For more information:
United States*
Europe*
Far East/Australasia: (65) 290-6305
Canada: (416) 206-4725
Japan: (81 3) 3331-6111
*Call your local HP sales office listed
in your telephone directory. Ask for a
Components representative.
Data Subject to Change
Copyright © 1995 Hewlett-Packard Co.
Printed in U.S.A.
5963-2455E (10/94)