American Microwave Corporation
7309-A Grove Road
Frederick, MD 21704

Phone:301-662-4700
Fax:301-662-4938
sales@americanmic.com
 

ISO -9001:2015

In Pursuit of Excellence
Through Engineering since 1978

AGH-0612-60DD-SF

 
AMC Model AGH-0612-60DD-SF is an Ultra
High Speed Octave Band Attenuator/Modulator,
Programmable By 8 Bit Positive True Binary Logic.



Specifications:


 Frequency Range

6 – 12 GHz Minimum


 Insertion Loss

2.5 dB Maximum


 Attenuation Flatness

  0 –
10 dB: ±0.7 Maximum
10 –
20 dB: ±1.0 Maximum
20 –
40 dB: ±1.5 Maximum
40 –
60 dB: ±1.6 Maximum


 Attenuation Accuracy

  0 – 30      dB: ±0.5 dB
30 – 50      dB: ±1.0 dB
50 – 63.75 dB: ±1.5 dB


 Switching Time

125 nS Maximum


 Temperature Coefficient

±0.01 dB/ºC


 VSWR (On/Off)

1.7:1 Maximum


 Power Ratings

Operating:
+20 dBm Maximum
Survival: +30 dBm Maximum


 Control

8 Bit Positive True TTL Binary Logic,
0.25 dB Minimum Attenuation Steps


 Power Supply

+12 to +18 VDC @ 100 mA Maximum
– 12 to – 18 VDC @   15 mA Maximum


 Connectors

RF Input/Output: Field Replaceable SMA (Female)
Power & Controls: Miniature 14 Pin Male
                             (MIL-C-28748)
Mating
Connector (Female) Furnished


 Size

1.80″ X 1.67″ X 0.85″

Available Options:

 A01

J1 SMA Male, J2 SMA Female


 A02

Two SMA Male RF Connectors


 A03

Miniature 15 Pin, Male Connector (MDM15SSP)


 A04

Ultra High Speed (70 nS On/Off Time)

Environmental Ratings:

Our standard
environmental ratings are as follows, for specific
requirements please contact us…

 Temperature:
 -55 ºC to +85
ºC Operating
 -65
ºC to +125 ºC Non-Operating
 Humidity:  MIL-STD-202F,
Method 103B Cond. B
 Shock:  MIL-STD-202F,
Method 213B Cond. B
 Vibration:  MIL-STD-202F,
Method 204D Cond. B
 Altitude:  MIL-STD-202F,
Method 105C Cond. B

 Temperature Cycle:
 MIL-STD-202F,
Method 107D Cond. A

 

Outline Drawing:

Click here to see the Outline Drawing for

AGH-0612-60DD-SF

 

Product Feature:

Click here to see the Product Feature for

AGH-0612-60DD-SF

 

Test Report:

Click here to see the Com Dev Test Report
for

AGH-0612-60DD-SF