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What is IVA-14208?

This electronic component, produced by the manufacturer "Agilent(Hewlett-Packard)", performs the same function as "Silicon Bipolar MMIC 2.5 GHz Variable Gain Amplifier".


IVA-14208 Datasheet PDF - Agilent(Hewlett-Packard)

Part Number IVA-14208
Description Silicon Bipolar MMIC 2.5 GHz Variable Gain Amplifier
Manufacturers Agilent(Hewlett-Packard) 
Logo Agilent(Hewlett-Packard) Logo 


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Silicon Bipolar MMIC 2.5 GHz
Variable Gain Amplifier
Technical Data
IVA-14208
IVA-14228
Features
• Differential Input and
Output Capability
• DC to 2.5 GHz Bandwidth;
3.4 Gbits/s Data Rates
• High Gain: 24 dB Typical
• Wide Gain Control Range:
34␣ dB Typical
• 6 V Bias
• 5 V VGC Control Range,
IGC␣ <3␣ mA
• Fast Gain Response: <10␣ nsec
Typical
• IVA-14208: Low Cost Plastic
Surface Mount Package
• IVA-14228: Hermetic Ceramic
Surface Mount Package
30
VGC < 3 V
20
3.75 V
10
4.0 V
0
-10
-20
5.0 V
-30
0.1
1.0
FREQUENCY (GHz)
3.0
Figure 1. IVA-14228 Typical Variable
Gain vs. Frequency and VGC at
VCC = 6 V, Tcase = 25°C.
Description
The IVA-14 series MMlCs are
variable gain amplifiers. The
IVA-14208 is housed in a miniature
low cost plastic surface mount
package. The IVA-14228 is housed
in a miniature hermetic ceramic
surface mount package. Both
devices can be used in any
combination of single-ended or
differential inputs or outputs (see
Functional Block Diagram). The
lowest frequency of operation is
limited only by the values of user
selected blocking and bypass
capacitors.
Typical applications include
variable gain amplification or
limiting for fiber optic systems
(e.g. SONET) with data rates up to
3.4 Gbits/s, mobile radio and
satellite receivers, millimeter
wave receiver IF amplifiers and
communications receivers.
The IVA series of variable gain
amplifiers is fabricated using
Hewlett-Packard’s 10 GHz fT,
25␣ GHz f MAX ISOSAT™-1 silicon
bipolar process. This process uses
nitride self-alignment, sub-
micrometer lithography, trench
isolation, ion implantation, gold
metallization and polyimide inter-
metal dielectric and scratch
protection to achieve excellent
performance, uniformity and
reliability.
6-185
IVA-14208
Plastic SO-8 Package
PIN 1
IVA-14228
Ceramic ‘28’ Package
PIN 1
Functional Block
Diagram and Pin
Configuration
PIN 1
PIN 8
PIN DESCRIPTION
1. INPUT +
2. V EE, AC GROUND
3. V EE, AC GROUND
4. INPUT –
8. VGC
7. OUTPUT +
6. OUTPUT –
5. VCC
IVA-14228 PACKAGE BOTTOM IS V EEAC GROUND.
5965-9975E

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IVA-14208 equivalent
IVA-14208 Typical Performance Curves
30
25 VGC = 0 V
20
3.75 V
15
40
GAIN
20
0 P1dB
15
10
10
5 4.0 V
-20
0
0.1 1.0
FREQUENCY (GHz)
Figure 18. IVA-14208 Gain vs.
Frequency and VGC; VCC = 6 V,
Tcase␣ =␣ 25 °C.
-40
3.0 0 1 2 3 4 5
VGC (VOLTS)
Figure 19. IVA-14208 Gain and P1dB vs.
VGC; VCC = 6 V, Frequency = 1 GHz,
Tcase = 25°C.
5
0.1 1.0
FREQUENCY (GHz)
3.0
Figure 20. IVA-14208 Noise Figure vs.
Frequency; VCC = 6 V, VGC = 0 V,
Tcase␣ =␣ 25 °C.
4 4:1
3
2
1
0
0 1 23 4
VGC (VOLTS)
Figure 21. IVA-14208 IGC vs. VGC;
VCC␣ =␣ 6 V, Tcase = 25°C.
3:1
OUTPUT
2:1
INPUT
1:1
5 0.1
1.0
FREQUENCY (GHz)
Figure 22. IVA-14208 VSWR vs.
Frequency; VCC = 6 V, VGC = 0 V,
Tcase␣ =␣ 25 °C.
600
550
500
450
400
350
300
3.0 0.1
1.0
FREQUENCY (GHz)
3.0
Figure 23. IVA-14208 Group Delay vs.
Frequency; VCC = 6 V, VGC = 0 V,
Tcase␣ =␣ 25 °C.
0
-1 V GC = 0 V
-2
3.75 V
-3
-4
-5
-6
0.1
1.0
FREQUENCY (GHz)
3.0
Figure 24. IVA-14208 P1dB vs.
Frequency and VGC; VCC = 6 V,
Frequency = 1 GHz, Tcase = 25°C.
26
< GAIN
25
24
0
-1
-2
23
P1dB >
-3
22
-40 -25
0 25 50
TEMPERATURE (°C)
-4
85
Figure 25. IVA-14208 Gain and P1dB vs.
Temperature; VCC = 6 V, VGC = 0 V,
Frequency = 1 GHz.
45
42.5
40
37.5
35
32.5
30
-40 -25
0 25 50
TEMPERATURE (°C)
Figure 26. IVA-14208 ICC vs.
Temperature; VCC = 6 V, VGC = 0 V.
85
6-189


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Part NumberDescriptionMFRS
IVA-14208The function is Silicon Bipolar MMIC 2.5 GHz Variable Gain Amplifier. Agilent(Hewlett-Packard)Agilent(Hewlett-Packard)
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IVA-14208-TR1The function is Silicon Bipolar MMIC 2.5 GHz Variable Gain Amplifier. Agilent(Hewlett-Packard)Agilent(Hewlett-Packard)

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