611 Industrial Way West, Eatontown, NJ 07724 tel: 732-460-0212 fax: 732-460-0214 sales@advanced-control.com www.advanced-control.com
Each detector model contains:
• Input Impedance Matching
• DC return
• RF bypass capacitor
• Detector diode
• Video protection diode
Features:
• Static Protection
• High Sensitivity
• Small Size
Applications:
• Transmitter Monitoring
• Radar Equipment
• Missile Guidance Systems
• Input to Low-Noise Amplifiers
• Broadband Or Narrowband ECM Receivers
• Power and Signal Monitors
• Doppler Radar and Beacon Receivers
• Matched units available for Multi-channel Receivers, Amplitude Comparator Systems and Discriminators
Minimum Flatness Nominal (3)
Frequency Sensitivity vs Typical (2) Video Standard Optional
Range Part (1) K Frequency TSS Capacitance Case Case
(GHz) Number (mV/mW) (+/-dB) (dBm) (pF) Styles Styles
0.1 - 1 ACSM2035N 2000 0.25 -52 270 M12 M34, M35, M47
0.5 - 2 ACSM2001N 2000 0.4 -53 75 M12 M34, M35, M47
1 - 2 ACSM2066N 2000 0.2 -53 20 M12 M34,M35,M47,M50,M51
0.5 - 4 ACSM2108N 2000 0.4 -53 20 M12 M43, M50, M51
1 - 4 ACSM2038N 2000 0.4 -53 20 M12 M50, M51
2 - 4 ACSM2002N 2000 0.4 -53 20 M12 M50, M51
1 - 8 ACSM2075N 2000 0.5 -53 20 M12 —
2 - 8 ACSM2014N 2000 0.5 -53 20 M12 —
4 - 8 ACSM2003N 2000 0.4 -53 20 M12 M50, M51
2 - 12 ACSM2007N 2000 0.9 -52 20 M12 —
8 - 12 ACSM2004N 2000 0.65 -52 12 M12 —
1 - 18 ACSM2047N 1800 1.0 -51 20 M12 —
2 - 18 ACSM2006N 1800 1.0 -51 12 M12 —
8 - 18 ACSM2015N 1800 0.7 -52 12 M12 —
12 - 18 ACSM2005N 2000 0.6 -52 12 M12 —
NOTES:
1) Standard output polarity is negative. If negative output is required, substitute “P” for “N” in part number.
2) Tangential Signal Sensitivity (TSS) is a measure of low level sensitivity with respect to noise. It is measured using a video amplifier with
a 2MHz bandwidth and a 3dB noise figure.
3) Video capacitance is used for RF bypass. This value can be changed if required for video response time or other considerations.
Contact the factory if value other than those shown are needed.
4) Video protection is available on most models. This feature helps to prevent damage to the detector diode from incidents occurring at the
video port. Transient electromagnetic spikes, static contact, or voltage surges can easily damage a detector diode. A video protection
diode will clamp the voltage at a value less than the detector breakdown voltage. NOTE: Inclusion of this protection will cause the
output voltage to compress and clamp. This occurs at about +10dBm input to the detector. If operation above +10dBm is required then
the output protection should be modified or excluded. Adding a suffix “X” at the end of the model number will exclude the video
protection feature. Contact the factory for assistance.
5) Zero bias schottky versions are available for most of listed biased schottky models with only minor differences in specifications.
a. The zero bias schottky has an impedance of several thousand ohms.
b. Zero bias schottky detectors exhibit less sensitive TSS due to the high diode impedance (typically a 3dB reduction).
c. The temperature performance of the zero bias schottky is poor when operating at low input power levels. This difference
becomes small at high levels (above 0dBm input power). The part number of zero bias versions includes a “Z” following the
polarity indicator.
High sensitivity and superior electrical and environmental reliability characterize
these module detectors. They are hermetically sealed and contain internal RF
matching, DC return, and RF bypass capacitor. In addition, the video port can
be protected from static or transient voltages. This feature prevents damage
due to handling (usually static) or system video transients. Models may be
chosen for broadband RF performance or for optimized narrow bands. They
may be used in microstrip or stripline applications for power monitoring,
broadband ECM receivers, radar equipment, beacon or multi-channel receivers.
SCHOTTKY DIODE MODULE DETECTORS
611 Industrial Way West, Eatontown, NJ 07724 tel: 732-460-0212 fax: 732-460-0214 sales@advanced-control.com www.advanced-control.com
0.129
Ø0.012
TYP.
0.330
INPUT
0.120
0.080
0.246
±.003
OUTPUT
0.250
0.120
0.058
TYP.
C
L
0.050
(3) PLCS.
1
2
3
4
0.015±.003
TYP.
0.150
0.400 MAX.
0.210
0.180
SQ. MAX.
GROUND
N/C
OUTPUT
N/C
GROUND
N/C
RF INPUT
N/C
8
7
6
5
4
3
2
1
PIN FUNCTION
0.005±.002
0.080
MAX.
8
7
6
50.004 X 0.020
MIN. (2) PLCS.
0.020 MAX.
(TO FLAT)
0.280±.005
0.160
0.205±.003
0.135
±.010
(2) PLCS.
Ø0.096±.003
THRU
0.126
±.004
0.062±.002
0.079±.002
0.080
±.001
COLORED DOT
INPUT
Ø0.500±.002
Ø0.450±.002
0.200
0.185±.015
0.031±.003
0.050
MAX.
0.300±.005
0.018±.002
(4) PLCS.
45°±3°
TYP.
RF IN
N/C
VIDEO OUT
GND
RF IN
VIDEO
OUT
N/C
GND
Ø0.360±.002
Ø0.300±.002
0.160
0.185±.015
0.031±.003
0.034±.005
45°±3°
TYP.
0.200±.005
TYP.
0.018±.002
(4) PLCS.
ENVIRONMENTAL SPECIFICATIONS: SCREENING :
MIL-E-5400, MIL-STD-202, MIL-E-16400 Standard Screening:
Operating Temp: -65°C to +125°C Internal Visual per MIL-STD-883, Method 2017
Storage Temp: -65°C to +150°C Temperature Cycle: -65°C to +100°C, 10 cycles
Humidity: MIL-STD-202F, M103, Cond B Optional High-Rel Screening (Ref MIL-PRF-38534):
Shock: MIL-STD-202F, M213, Cond B Internal Visual per MIL-STD-883, Method 2017
Altitude: MIL-STD-202F, M105, Cond B Stabilization Bake per MIL-STD-883, Method 1008
Vibration : MIL-STD-202F, M204, Cond B Temperature Cycle per MIL-STD-883, Method 1010
Thermal Shock: MIL-STD-202F, M107, Cond A Constant Acceleration per MIL-STD-883, Method 2001
Temperature Cycle: MIL-STD-202F, M105C, Cond D Burn-in per MIL-STD-883, Method 1015
Maximum Input Power: +20dBm Leak Test per MIL-STD-883, Method 1014
External Visual per MIL-STD-883, Method 2009
CASE STYLE M12
CASE STYLE M47 CASE STYLE M50 CASE STYLE M51
CASE STYLE M43 CASE STYLE M34 CASE STYLE M35
Part Number Ordering Information: Example: ACSM2015NZM51X20
ACSM2015: Schottky Module Detector, 8 - 18GHz
N: Negative output polarity
Z: Zero bias version (omit for biased version)
M51: Package type
X: No video protection (omit for inclusion of video protection)
20: 20pF custom output capacitance (omit for standard value)
SM-0205
Ø0.015
TYP.
0.430
0.120
0.080
Ø0.187
±.003
0.250
0.120
0.052±0.004
(2) PLCS.
0.094
0.1015 C
L
+.0015
-.0000
Ø0.058±.003 THRU
(2) PLCS.
0.126±.004
0.080±.001
0.161±.001
0.205±.003
COLORED DOT
INPUT
0.062±.002
0.135±.010
(2) PLCS.
0.252±.003
0.411±.002
0.079±.002
0.004 X 0.020
MIN. (2) PLCS.
0.012 MAX.
(TO FLAT)
