IFD-53110 View Datasheet(PDF) - HP => Agilent Technologies

Part Name

Description

MFG CO.

IFD-53110

Silicon Bipolar MMIC 3.5 and 5.5 GHz Divide-by-4 Static Prescalers

HP => Agilent Technologies 

1 2 3 4 5

Typical Performance, TA = 25°C, ZO = 50 Ω, Vcc - Vee = 5.0 V

Graphs apply to both IFD-53010 and IFD-53110 (unless otherwise noted).

0

IFD-53010 &

IFD-53110

-10

IFD-53010

-20

-30

-40

-50

0

1

23

45

67

FREQUENCY (GHz)

Figure 1. Input Sensitivity vs. Input

Frequency and Recommended

Operating Ranges for Nominal

Operating Conditions (T = 25°C , Vcc -

Vee = 5 V).

0

IFD-53010 &

IFD-53110

-10

IFD-53010

-20

-30

-40

-50

01

23 45

FREQUENCY (GHz)

67

Figure 2. Input Sensitivity vs. Input

Frequency and Recommended

Operating Ranges for Worst Case

Operating Conditions (-55°C < T <

125°C and 4.5 V < Vcc - Vee < 5.5 V.

0

-10

-20

-30

-40

-50

01

-55°C

25°C

125°C

23

45

FREQUENCY (GHz)

67

Figure 3. Input Sensitivity vs. Input

Frequency and Temperature

(Vcc - Vee = 5 V).

70

60

+ 125°C

50

+ 25°C

40

30

20

- 55°C

10

0

0

1

2

3

4

5

6

VCC -VEE (V)

Figure 4. Device Current vs. Voltage

and Temperature.

3:1

OUTPUT

2:1

INPUT

2

0

5.5 V

-2

5.0 V

-4

4.5 V

-6

1:1

10

100

1000

FREQUENCY (MHz)

10000

Figure 5. Input and Output VSWR vs.

Frequency.

-8

10

100

1000

FREQUENCY (MHz)

10000

Figure 6. Output Power Level vs. Input

Frequency and Vcc - Vee.

- 60

+100

V in

- 80

+200

-100

0

0

5 GHz (IFD-53010)

-120

-140

2 TO 4 GHz

(IFD-53010 & IFD-53110)

Vout

-100

-200

-160

200

1

1kHz

1MHz

TIME (psec)

OFFSET FREQUENCY

Figure 7. SSB Phase Noise vs. Offset

Frequency, and Input Frequency.

Figure 8. IFD-53010 Typical Output Response with 5 GHz Input.

7-153

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