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2
Manual Phase Shifters
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Lorch Microwave’s MP-Series, Manual Phase Shifters, are
mechanically variable devices offering a continuously vari-
able phase shift over a 0-90 or 0-180 degree range. These
devices use a lumped element quadrature hybrid along
with a pair of matched variable LC networks. The LC net-
works are tied to ports 2 and 3 of the quad hybrid (See
Figure 1) to form a “sliding” short. These elements, when
placed at the output ports of the hybrid, will reflect inci-
dent energy back into the hybrid. The reflected energy
then appears at port 4, the isolated port. As the LC ele-
ments are varied, the apparent distance (or electrical
length) of the sliding short, changes the phase angle of the
reflected signal.
The phase adjustment is via a 34 turn mechanically vari-
able capacitor. Phase shift verses number of turns is shown
in Figure 2.
Notes:
1) All units rated at 0.5 Watts Avg, 2 Watts Peak. The Peak/Average power handling capacity applies for thru-line VSWR’s of1.25:1 max.
The units listed are designed to provide optimum performance over thefull 10% bandwidth. If the band of interest is narrower than listed, itshould be indicated when ordering (See “Creating a Part Number”).Performance will be optimized over the band of interest and improvedperformance may be offered at no extra cost.
Applications
❚ Closed-Loop Tracking System
❚ Fine Grain Phase Control
❚ Path Equalization or Balance
❚ 10-1000 MHz Frequency Range
❚ 10% Standard Bandwidth
❚ 0-90°, 0-180° and 0-360°Phase Shift Ranges
❚ Multi-Turn, Infinite Resolution
❚ Low Loss, High Phase Stability
❚ PC Mount and Connectorized
Frequency(MHz) Bandwidth
10 - 500
20 - 500
INSLoss (dB)
PhaseShift
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90°
180°
10%
10%
1.3
1.8
VSWR
1.6:1
1.6:1
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....
.
TYPICAL PERFORMANCE SPECIFICATIONS
FIGURE 1SCHEMATIC
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3
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Manual Phase Shifters
Creating a Part NumberLorch Microwave’s MP-Series, Manual Phase Shifters, have
descriptive part numbers indicating the important electrical
characteristics that define the unit. A list of typical perform-
ance specifications are given in the preceding section. For
specifications outside these operating parameters, please
contact the factory.
OUTLINE, PC MOUNT OUTLINE, CONNECTORIZED
FIGURE 2TYPICAL PHASE SHIFT VS. RELATIVE ROTATION
FIGURE 3TYPICAL INSERTION LOSS VS. RELATIVE ROTATION
Relative Rotation (turns)
Relative Rotation (turns)
Pha
se S
hift
Inse
rtio
n Lo
ss
MP 180 120 12
1 2 3 4 5 6
S 75- - - - -
Part Number Description
1 MP Series, Manual Phase Shifter
2 180 Phase Shift in Degrees
3 120 Center Frequency in MHz
4 12 Bandwidth in MHz
5 S Package Style, S-SMA, P-PC Mount
6 75 Input Impedance, if other than 50 Ohms
Press to return to Index
4
Voltage Controlled Phase Shifters
❚ 1-3000 MHz Frequency Range
❚ 10%, 20% and 30% Bandwidths
❚ 0-90°, 0-180° and 0-360° PhaseShift Ranges
❚ Low Insertion Loss
❚ High Phase Stability
❚ Surface Mount, PC Mount,
Flatpack and Connectorized
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Lorch Microwave’s VP-Series, Voltage Controlled Phase
Shifters, are wideband miniature components available in
a wide range of center frequencies and bandwidths.
Standard models are available with 0-90°, 0-180° and
0-360° continuously adjustable phase range. These devices
use voltage variable capacitors (varactor diodes) to achieve
the desired phase shift.
❚ Closed-Loop Tracking Systems
❚ Fine Grain Phase Control
❚ Path Equalization or Balance
❚ Electronic Steering Arrays
Applications
Definition of TermsPhase ShiftThe minimum total phase shift in degrees occurring when
control voltage is varied from minimum (0 VDC) to maxi-
mum. For standard models the phase shift is positive.
Insertion PhaseThe difference in phase between input and output ports as
the device is inserted in line with the control voltage set at
0 volts.
Control VoltageThe DC voltage range required to shift the phase from the
minimum to the maximum specified amounts.
DescriptionLorch Microwave’s VP-Series Phase Shifters are voltage
variable devices offering a continuously variable phase
shift over a 0-90, 0-180 or 0-360 degree range. Phase con-
trol is achieved by the application of a control signal. The
control voltage varies the capacitance of two matched var-
actor diodes which form LC resonant circuits connected to
the output ports of a 90 degree Hybrid. The change in
diode reactance causes a shift in phase of the RF signal.
180°
150°
120°
90°
60°
30°
0°0 3 6 9 12 15
FIGURE 1TYPICAL PHASE SHIFT VS CONTROL VOLTAGE
Control Voltage (VDC)
Pha
se S
hift
(D
egs)
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1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Voltage Controlled Phase Shifters
CenterFrequency (MHz)
1.01.53.0
1.01.53.0
1.01.53.0
1.01.53.0
1.31.63.0
1.51.73.2
1.52.04.0
1.72.24.0
1.82.34.5
2.02.65.0
000
000
+5+5+5
+5+5+5
+7+7+7
+7+7+7
+10+10+10
+10+10+10
+10+10+10
+10+10+10
1.4:11.5:11.6:1
1.5:11.6:11.7:1
1.4:11.5:11.6:1
1.5:11.6:11.7:1
1.5:11.5:11.6:1
1.5:11.6:11.7:1
1.6:11.8:11.8:1
1.6:11.8:12.0:1
1.7:11.8:12.0:1
1.8:11.8:12.0:1
0-300-300-30
0-300-300-30
0-150-150-15
0-150-150-15
0-100-100-10
0-100-100-10
0-100-100-10
0-100-100-10
0-50-50-5
0-50-50-5
S, P, 3S, P, 3
S, P, 4A
S, P, 3S, P, 3, 4AS, P, 4A
S, P, 3S, P, 3
S, P, 4A
S, P, 3, 4AS, P, 3, 4AS, P, 4A
S, P, 3, 4AS, P, 3, 4AS, P, 4A
S, P, 3, 4AS, P, 3, 4AS, P, 4A
S, P, 4AS, P, 4A
S, P
S, P, 4AS, P, 4A
S, P
S, PS, PS, P
S, PS, PS, P
% BandwidthPhase
Shift (Deg)InsertionLoss (dB)
Max InputPower (dBm)
Control Voltage(VDC)VSWR
Package(See note below)
0.5-500.5-500.5-50
0.5-500.5-500.5-50
50-30050-30050-300
50-30050-30050-300
300-1000300-1000300-1000
300-1000300-1000300-1000
1000-20001000-20001000-2000
1000-20001000-20001000-2000
2000-30002000-30002000-3000
2000-30002000-30002000-3000
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.
0-900-1800-360
0-900-1800-360
0-900-1800-360
0-900-1800-360
0-900-1800-360
0-900-1800-360
0-900-1800-360
0-900-1800-360
0-900-1800-360
0-900-1800-360
101010
20, 3020, 3020, 30
101010
20, 3020, 3020, 30
101010
20, 3020, 3020, 30
101010
20, 3020, 3020, 30
101010
20, 3020, 3020, 30
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TYPICAL PERFORMANCE SPECIFICATIONS
Notes:
Packages: S-SMA Connectorized, P-PC Mount, 3-Surface Mount,4A-Surface Mount
The units listed are designed to provide optimum perform-
ance over the full bandwidth listed. If the bandwidth of
interest is narrower than listed, it should be indicated
when ordering (See “Creating a Part Number”).
Performance will be optimized over the band of interest
and improved performance may be offered at no extra
cost.
5
Press to return to Contents
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Creating a Part NumberLorch Microwave’s VP-Series, Voltage Controlled Phase
Shifters, have descriptive part numbers indicating the
important electrical characteristics that define the unit. A
list of typical performance specifications are given in the
preceding section. For specifications outside these oper-
ating parameters, please contact the factory.
VP 180 100 20
1 2 3 4 5 6
3 75- - - - -
Part Number Description
1 VP Series, Voltage Controlled Phase Shifter
2 180 Phase Shift in Degrees
3 100 Center Frequency in MHz
4 20 Bandwidth in MHz
5 3 Package Style, See Outlines
6 75 Input Impedance, if other than 50 Ohms
Voltage Controlled Phase Shifters
OUTLINE, SMA CONNECTOR AND PC MOUNT
OUTLINE, STYLE 4A
OUTLINE, STYLE 3
6
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1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Digital Phase Shifters
❚ 1-1000 MHz frequency range
❚ Up to a full octave bandwidth
❚ 0-360 Degrees phase shift
❚ Integral TTL driver
❚ 1-8 bit control
❚ Accuracy to 1⁄2 least significant bit
❚ Time shifter or frequencyindependence
Lorch Microwave’s DP Series, Digital Phase Shifters,
are available for frequencies from 1 to 1000 MHz. These
phase shifters are composed of high performance GaAs
switches that have little power consumption, fast switch-
ing time, and extremely low switching transients.
All units are TTL compatible, with one control line per
bit. TTL high voltage state corresponds to zero phase
shift on standard units, but reversed logic may be
obtained if required. As a convention, all phase shifts are
negative.
Description
Figure 1 illustrates three distinct types of phase shifters,
namely: Type 1 (Phase Shifter), Type 2 (Time Shifter),
and Type 3 (Phase Inverter). They have quite different
performance characteristics, proper selection is gov-
erned by consideration of the system in which the shifter
is to be used.
Type 1 (Phase Shifter) uses special networks to obtain
any desired phase shift, shown as 0 degrees, 90 degrees
and 180 degrees in the example of Figure 1A. The 90
degree and 180 degree shifts have phase/frequency
slopes parallel to that of the initial insertion phase char-
acteristic, signifying constant time delay. The Type 1
Phase Shifter changes the phase of the incoming signal
while maintaining constant time delay, or group delay.
The delay is that of the initial insertion phase character-
istic. At all settings, the absolute insertion phase is pro-
portional to frequency, depending on the value of the
insertion delay, but the phase shift is not. This type of
device is inherently narrowband in nature. Wider band-
widths are obtainable, but at a higher cost because of
the complex networks required. Type 1 shifters should
be used only where special characteristics of constant
delay and frequency independent phase shift are
required.
FIGURE 1ATYPE 1 (PHASE SHIFTER)
7
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1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Type 2 (Time Shifter) is illustrated in Figure 1B, which
shows two sections, each with a ‘thru’ path of length lo
and a ‘line’ path of length l1 and l2. The length l2 is
assumed to be longer than l1. It is seen that the insertion
phase of the path l0 is linear with frequency, having a
slight slope, and curve l2 is steeper yet. Type 2 is a true
time shifter compared to the Type 1 Phase Shifter. The
phase characteristic is proportional to frequency at any
phase setting, with a slope proportional to frequency at
any phase setting. Group delay is constant for each
phase setting but proportional to phase shift as the set-
ting is changed. The zero degree phase setting corre-
sponds to the insertion phase, or delay; all other delays
are longer in time. The Type 2 device has an inherently
wide bandwidth, limited only by the switching circuits
used. Type 2 shifters are less expensive than Type 1, have
wider bandwidths with good transient response. They
are recommended for most applications, particularly
those in which time is in fact the variable desired, such
as antenna beam formers.
Type 3 (Phase Inverter) of Figure 1C is a special case and
consists of a simple phase-reversing transformer. It pro-
vides only two possible phase states, namely the inser-
tion phase, 0 degrees and 180 degrees. The phase/fre-
quency slope, or time delay, is approximately the same
for each state. The device exhibits wide bandwidth and
excellent transient response. It has limited applications,
and is the simplest and least expensive.
Digital Phase Shifters
FIGURE 2
FIGURE 1BTYPE 2 (TIME SHIFTER)
FIGURE 1CTYPE 3 (PHASE INVERTER)
8
Press to return to Contents
Phase Shifters of Type 1 and Type 2 can be arranged to
give identical phase shift at a single frequency, e.g. f0 in
Figure 1. It is when the frequency is varied that the dif-
ference between these two types becomes apparent. In
the case of Type 2, (Time Shifter), performance should
be specified in units of time delay. Common usage, how-
ever dictates the specifications of degrees of phase shift
at a given frequency. Only at that frequency will the
device meet the phase specifications. In many instances,
the frequency will be at the center of the bandwidth
specified. To resolve this difficulty, a ‘datum’ frequency is
given in each case, that being the frequency at which the
specified phase shifts occur.
This catalog covers TTL compatible digital phase shifters
comprising of one or several shifters, usually in a binary
sequence as shown in Figure 2. In that example, six sec-
tions are arranged in the sequence 5.625 degrees, 11.25
degrees, 22.5 degrees etc., with a total phase shift of
354.375 degrees, the next step returning to 0 degrees.
Thus a complete 360 degree of phase variation is
obtained, in nominal steps of 5.625 degrees. For conven-
ience, the nominal phase angles are rounded to one dec-
imal place, e.g. 5.6 degrees and 354.4 degrees, etc. Other
sequences and step sizes are available.
Digital Phase Shifters
BIT LSB
2345678
MSB
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90°45°
22.5°11.2°5.6°2.8°1.4°
180°90°45°
22.5°11.2°5.6°2.8°
180°90°45°
22.5°11.2°5.6°
180°90°45°
22.5°11.2°
180°90°45°
22.5°
180°90°45°
180°90°
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180°
Part Number Type CenterFrequency
(MHz)
# Bits
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.....BW
(MHz)Bit Sequence
see note 2(Deg)
PhaseERR/Bit
(Deg)
INS Losssee note 3
(dB)
6.08.06.03.51.53.08.04.05.07.06.5
± 2.0± 1.0± 2.0± 2.0± 1.0± 2.0± 1.3± 1.5± 1.5± 1.5± 2.8
5102020120502103125
30809095150210215290350575850
68631284576
11113122222
5.6, 11.2, 22.5, 45, 90, 1801.4, 2.8, 5.6, 11.2, 22.5, 45, 90, 1805.6, 11.2, 22.5, 45, 90, 18045, 90, 18018090, 1801.4, 2.8, 5.6, 11.2, 22.5, 45, 90, 18022.5, 45, 90, 18011.2, 22.5, 45, 90, 1802.8, 5.6, 11.2, 22.5, 45, 90, 1805.6, 11.2, 22.5, 45, 90, 180
DP-1-6-30-5-75DP-1-8-80-10-77DP-1-6-90-20-75DP-1-3-95-20-72
DP-3-1-150-120-70DP-1-2-210-50-71DP-2-8-215-2-77DP-2-4-290-10-73DP-2-5-350-3-74DP-2-7-575-12-76DP-2-6-850-5-75
SUMMARY
TYPICAL PERFORMANCE SPECIFICATIONS
COMMON BIT/PHASE SHIFT SEQUENCES
Notes:
1) All standard digital phase shifters have the following common specifications:DC power supply requirements: +5V @ 20 mA, -5V @ 20 mA;RF input power: +16 dBm max.;Switching time: 100 nS max.
2) Please specify bit sequence, if other than standards.
3) Units with lower insertion loss are available for applications with RF input power of +5 dBm max.
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Parameter Type 1
Phase Shift
Group Delay
Bandwidth
Type 3Type 2
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Proportional toFrequency
Independent ofFrequency
Inverts Phase,0°/180°
Constant withFrequency
Proportional toPhase Shift
Constant withFrequency
Narrowband Wideband Wideband
9
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Power / LogicPin Connections
Pin1-89-121314
FunctionLogic Inputs
GND+5 VDC-5 GDC
15 GND......
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Package Style Length ‘L’INS (mm)
# Bits
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-70-71-72-73-74-75-76-77
3.0 (76)3.5 (89)4.0 (103)4.5 (114)5.0 (127)5.5 (140)6.0 (152)6.5 (165)
12345678
Creating a Part NumberLorch Microwave’s DP Series, Digital Phase Shifters, have
descriptive part numbers indicating the important elec-
trical characteristics that define the unit. A list of “stan-
dard” Digital Phase Shifters is given in the preceding
sections. For specifications outside these operating
parameters, please contact the factory.
DP 2 8 250
1 2 3 4 5 6
20 77- - - - -
7
75-
Digital Phase Shifters
Part Number Description
OUTLINE, DIGITAL PHASE SHIFTER
1 DP Series, Digital Phase Shifter
2 2 Type, See Description
3 8 Number of Bits
4 250 Center Frequency in MHz
5 20 Bandwidth in MHz
6 77 Package Style, See Outlines
7 75 Impedance, if other than 50 Ohms
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
10
Press to return to Contents
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Phase Comparators
❚ 0.2-750 MHz Frequency Range
❚ Up to 33% Bandwidth
❚ Wide dynamic range
❚ High phase stability
❚ High accuracy
❚ PC mount and connectorized
Lorch Microwave’s CP-Series, Phase Comparators, are
broad band devices which accept two input signals of the
same frequency, providing two video outputs, proportional
to the sine and cosine of the input phase difference. These
outputs can be used to form an unambiguous 360 degree
visual phase indication by observation of a moving dot on
an oscilloscope.
The angular position of the dot is a measure of the angular
difference between the inputs. Arithmetical division of the
sine and cosine outputs gives the tangent of the angular
difference. This technique is particularly useful for provid-
ing extended linear range for phase discrimination in
phase-locked loop circuits.
❚ Measurement of insertion phase ofnetworks or transmission lines
❚ Phase detection in phase-locked loops
❚ Resolution of complex signals forpresentation in polar form
❚ AGC sensing in phase-lock receivers
❚ Phase demodulation for group delaymeasurements
❚ Comparison of received phase differencebetween antenna outputs in directionfinding systems
Applications
FIGURE 1INPUT PHASE ANGLE vs OUTPUT VOLTAGE
0 90 180 270 360
1
0
-1
Out
put
Volt
age
(K)
= X Output
= Y Output
Input Angle (Degrees)
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
11
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1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Lorch Microwave’s CP-Series, Phase Comparators, con-
sists of interconnected mixers, quadrature hybrid, power
divider and diplexers. These components are especially
designed for low intermodulation distortion and VSWR
characteristics. Figure 2 shows the basic schematic for a
Phase Comparator.
Definition of Terms
Phase ErrorThe DC output voltages, X and Y, are proportional to the
cos(Ø) and sin(Ø) respectively. To obtain the value Ø,
output voltages X and Y are measured and Ø is
computed from:
Measured Ø = tan-1
(Y/X). The phase error is thus defined
as: Phase Error = Actual Ø-tan-1
(Y/X).
Peak Phase ErrorThe phase error of a given comparator has peak values
which occur at a few phase difference points. These
are stable and repeatable and can be reduced by
system calibration.
Zero Crossing ErrorThe indicated phase difference when the actual input
phase difference is exactly 0 degrees.
DC Offset VoltageThe DC video output voltage across 50 Ohms occurring
with only the reference input (Port LO) energized.
Phase Comparators
Low-Level Comparators
Lorch Microwave’s CP-13 Series, Low-Level Phase
Comparators, are designed to accept RF input signal lev-
els of up to +3 dBm.
General Electrical Specifications
LO/RF CharacteristicsLO/RF Center Frequency, Fo: 0.2-500 MHz
Bandwidth: Fo ±5%
LO Input Level: +13 ±2 dBm
RF Input Level: +3 dBm max.
Nominal Impedance: 50 Ohms
VSWR: 1.4:1 typ. (1.6:1 max.)
X/Y Video Ouput Characteristics“X” Output: k Cos Ø
“Y” Output: k Sin Ø
Bandwidth: DC-10% RF
Peak Amplitude: 85 mV min. into 50 Ohms,for 0 dBm input at Port RF
Nominal Impedance: 50 Ohms
X/Y Amplitude Balance: ±5 mV max.
Conversion Loss: 11 dB max.
DC Offset Voltage: ±2 mV typ.
Notes:
Standard units are designed to provide optimum performance overthe full 10% bandwidth. If the band of interest is narrower, itshould be indicated when ordering (See “Creating a PartNumber”). Performance will be optimized over the band of interestand improved performance may be offered at no extra cost.
CenterFrequency (MHz)
@ Fo (Deg) @ Fo ± 5%(Deg)
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......
......
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......
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± 1.0± 1.0± 1.5± 1.5± 1.7± 2.0
± 3.0± 3.5± 4.0± 4.5± 5.0± 5.0
± 1.0± 1.5± 1.7± 2.0± 2.5± 2.5
0.2 - 1010 - 100100 - 200200 - 300300 - 400400 - 500
Zero Crossing@ Fo (Deg)
Phase Error..............................................................................
FIGURE 2SCHEMATIC, PHASE COMPARATOR
PHASE ACCURACY
12
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1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Phase Comparators
High-Level Comparators
Lorch Microwave’s CP-20 Series, High-Level Phase
Comparators, are designed to accept RF input signal levels
of up to +10 dBm.
General Electrical Specifications
LO/RF CharacteristicsLO/RF Center Frequency, Fo: 0.2-500 MHz
Bandwidth: Fo ±5%
LO Input Level: +20 ±2 dBm
RF Input Level: +10 dBm max.
Nominal Impedance: 50 Ohms
VSWR: 1.4:1 typ. (1.6:1 max.)
X/Y Video Ouput Characteristics“X” Output: k Cos Ø
“Y” Output: k Sin Ø
Bandwidth: DC-10% RF
Peak Amplitude: 190 mV min. into 50 Ohms,for +7 dBm input at Port RF
Nominal Impedance: 50 Ohms
X/Y Amplitude Balance: ±5 mV max.
Conversion Loss: 11 dB max.
DC Offset Voltage: ±5 mV typ.
CenterFrequency (MHz)
@ Fo (Deg) @ Fo ± 5%(Deg)
......
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..
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......
± 1.0± 1.0± 1.5± 1.5± 1.7± 2.0
± 3.0± 3.5± 4.0± 4.5± 5.0± 5.0
± 1.0± 1.5± 1.7± 2.0± 2.5± 2.5
0.2 - 1010 - 100100 - 200200 - 300300 - 400400 - 500
Zero Crossing@ Fo (Deg)
Phase Error..............................................................................
CP 13 200 20
1 2 3 4 5 6
S 75- - - - -
1 CP Series, Phase Comparator
2 13 Reference LO-Level
3 200 Center Frequency in MHz
4 20 Bandwidth in MHz
5 S Package Style, S-SMA, P-PC Mount
6 75 Impedance, if other than 50 Ohms
Part Number Description
Creating a Part NumberLorch Microwave’s CP-Series, Phase Comparators, have
descriptive part numbers indicating the important elec-
trical characteristics that define the units. A list of “stan-
dard” Phase Comparators is given in the preceding sec-
tions. For custom designs, please contact the factory.
PHASE ACCURACY
Notes:
Standard units are designed to provide optimum performanceover the full 10% bandwidth. If the band of interest is narrower, itshould be indicated when ordering (See “Creating a PartNumber”). Performance will be optimized over the band of interestand improved performance may be offered at no extra cost.
Outline, Phase Comparator, SMA Connectorized
Outline, Phase Comparator, PC Mount
13
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Manual Attenuators
❚ DC-400 MHz Frequency Range
❚ 0-20 dB Attenuation
❚ Infinite Resolution
❚ PC-Mount and Connectorized
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Lorch Microwave’s MA-Series, Manual Attenuators, are
miniature components which may be adjusted manually
by mechanical rotation to provide a useful range of smoothly
variable attenuation over the frequency range DC to 400
MHz, with low VSWR and low minimum insertion loss.
These manual attenuators are ideal for applications where
the gain of one or more channels must be set or equalized
with precision. Styles 60 and 62 are packaged with pins for
PC board mounting, the control shaft being equipped with
a screw driver slot and restrained by a shaft locking device.
The style 61 and 63 packages have RF connectors and are
provided with a screw driver adjustment.
Package styles 60 and 62 are intended primarily for chassis
mounting within equipment where an initial setting will
remain untouched except for an occasional readjustment.
Package styles 61 and 63 are used in applications requiring
frequent manual adjustment, for example when they are
front panel mounted.
These attenuators use resistive network elements and thus
cause no signal distortion. They are carefully compensated
for side bandwidth and are highly stable with time, humid-
ity and temperature. They will remain at a preset attenua-
tion value for a long period of time.
Part Number
FrequencyRange(MHz)
......
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..
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..
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.
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.
MA-200-60MA-200-61MA-200-62MA-200-63MA-400-60MA-400-62MA-400-63
DC-200
DC-400
DC-5050-100100-200
DC-100100-200200-400
0-230-200-15
0-200-150-10
0.70.91.0
1.01.22.2
1.25:11.3:11.4:1
1.3:11.5:12.0:1
60616263606263
......
......
......
......
......
......
......
..VSWR
InsertionLoss(dB)
AttenuationRange(dB)
PackageStyle
PerformanceBandwidth
(MHz)
..............................................................................................................................................................................................
..............................................................................................................................................................................................
Notes:
1) Operating temperature range: -55°C to +85°C
2) Maximum RF power (all models): 0.5 Watt
The units listed are designed to provide optimum performance over the full frequency range listed. If the band of interest is narrower than listed, it should beindicated when ordering (See “Creating a Part Number”). Performance will be optimized over the band of interest and improved performance may be offered.
14
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1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Manual Attenuators
MA 300 60
1 2 3
- -
Part Number DescriptionCreating a Part NumberLorch Microwave’s MA-Series, Manual Attenuators, have
descriptive part numbers indicating important electrical
characteristics that define the unit. A list of “standard”
Attenuators is given in the preceding sections. For speci-
fications outside these operating parameters, please
contact the factory.
STYLE 60
STYLE 61
STYLE 62
STYLE 63
1 MA Series, Manual Attenuator
2 300 Upper Frequency Limit in MHz
3 60 Package Style, See Below
15
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Voltage Controlled Attenuators
❚ 1-3000 MHz Frequency Range
❚ Single Control Voltage
❚ Low Signal Distortion
❚ Low Insertion Loss
❚ Wide Attenuation Range
❚ Surface Mount, PC-Mount,Connectorized
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Lorch Microwave’s VA-Series, Attenuators, are miniature
components designed to attenuate the levels of RF signals
by means of a single positive control voltage.
❚ Radio Direction Finder (RDF) Systems: In RDF systems, to provide precise gain tracking of independent channels with extremely small phase change as a function of attenuation.
❚ Low Distortion Systems: To control signallevels in wideband, critical systems whereintermodulation distortion must be minimized.
❚ Signal Leveling: Where tight, linear leveling control is required with excellent phasecharacteristics.
❚ Receiver Gain Control: To provide overall receiver gain control, AGC and manual, with a few variable attenuators at RF, IF or both;permits other critical receiver stages to beoperated at optimized fixed gain.
Applications
The voltage controlled attenuators have anextremely large range of applicationswherever precise control of RF levels orstage gains is required. These applicationsinclude the following:
SURFACE MOUNT, STYLE 3
SURFACE MOUNT, STYLE 4A
PC MOUNT, STYLE P2
PC MOUNT, STYLE P1
16
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1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Voltage Controlled Attenuators
Part Number Description
Creating a Part NumberLorch Microwave’s VA-Series, Voltage Controlled
Attenuators, have descriptive part numbers indicating
the important electrical characteristics that define the
unit. A list of “standard” Attenuators is given in the fol-
lowing section. For specifications outside these operat-
ing parameters, please contact the factory.
VA 40 100 20
1 2 3 4 5
4A- - - -
1 VA Series, Voltage Controlled Attenuator
2 40 Attenuation in dB
3 100 Center Frequency in MHz
4 20 Bandwidth in MHz
5 4A Package Style, See Outlines
CenterFrequency (MHz)
0.61.2
0.81.6
0.81.6
0.91.8
1.22.4
1.53.0
1.53.0
1.73.5
+15+15
+15+15
+20+20
+20+20
+20+20
+20+20
+20+20
+20+20
1.4:11.4:1
1.4:11.4:1
1.5:11.5:1
1.6:11.6:1
1.6:11.6:1
1.8:11.8:1
1.8:12.0:1
2.0:12.0:1
0-50-5
0-50-5
0-50-5
0-50-5
0-50-5
0-50-5
0-50-5
0-50-5
S, P2, 3S, P2, 4A
S, P2, 3S, P2, 4A
S, P2, 3S, P2, 4A
S, P2, 3S, P2, 4A
S, P2, 4AS, P2
S, P2, 4AS, P2
S, P2, 4AS, P2
S, P2, 4AS, P2
% BandwidthAttenuationRange (dB)
InsertionLoss (dB)
@ Vc = OVDCMax Input
Power (dBm)
Control Voltage, VC@ 10 mA max.
(VDC)VSWR
@ Vc = OVDCPackage
(See note below)
0.5-5000.5-500
0.5-5000.5-500
500-1000500-1000
500-1000500-1000
1000-20001000-2000
1000-20001000-2000
2000-30002000-3000
2000-30002000-3000
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0-200-40
0-200-40
0-180-35
0-180-35
0-180-35
0-180-35
0-150-30
0-150-30
1010
20, 3020, 30
1010
20, 3020, 30
1010
20, 3020, 30
1010
20, 3020, 30
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Notes:
1) Packages: S-SMA Connectorized, P1-PC Mount, P2-PC Mount, 3-Surface Mount, 4A-Surface Mount.
The units listed are designed to provide optimum performance overthe full frequency range listed. If the band of interest is narrowerthan listed, it should be indicated when ordering (See “Creating aPart Number”). Performance will be optimized over the band ofinterest and improved performance may be offered.
TYPICAL PERFORMANCE SPECIFICATIONS
SMA CONNECTOR
17
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Broad Band Mixers
❚ 50 kHz - 4000 MHzFrequency Range
❚ Wide Range and Optimized Bands
❚ High Dynamic Range
❚ Low Insertion Loss
❚ High Isolation
1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Lorch Microwave’s Broad Band Mixers, Series FC, are
available in a wide range of LO drives. They are optimized
to cover the frequency range from 0.05 to 4000 MHz. Low
conversion loss and high isolation are achieved by the use
of low-loss ferrite networks together with specially
matched Schottky barrier diode quads.
Part Number Description
FC 7 5 500
1 2 3 4 5
11- - - -
1 FC Series, Mixer
2 7 Nominal LO Power in dBm
3 5 Lower Frequency Limit in MHz for LO/RF
4 500 Upper Frequency Limit in MHz for LO/RF
5 11 Package Style, See Outlines
FIGURE 1SCHEMATIC, DOUBLE BALANCED MIXER
Creating a Part Number
Lorch Microwave’s FC-Series, Broad Band Mixers, have
descriptive part numbers indicating the important charac-
teristics that define the units. A list of standard Mixers are
given in the following section. For custom designs, please
contact the factory.
18
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1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Notes:
1) Nominal impedance is 50 Ohms.
2) DC polarity is negative.
Standard units are designed to provide optimum performance over thefull frequency range listed. If the band of interest is narrower, it shouldbe indicated when ordering (See “Creating a Part Number”).Performance will be optimized over the band of interest and improvedperformance may be offered at no extra cost.
Part Number
0.05 - 100
0.2 - 600
2 - 1200
10 - 2000
10 - 3000
10 - 4000
0.05 - 100
0.2 - 500
2 - 1000
10 - 300
30 - 700
7.56.06.07.58.06.06.08.08.08.08.57.57.58.08.58.08.59.08.08.59.56.56.57.57.07.07.08.08.08.58.57.07.57.57.57.5
0.05 - 0.10.1 - 1010 - 6060 - 1000.2 - 0.40.4 - 4040 - 150150 - 6002 - 500
500 - 10001000 - 1200
10 - 5050 - 500
500 - 10001000 - 2000
10 - 500500 - 10001000 - 300010 - 1000
1000 - 25002500 - 4000
0.05 - 1010 - 6060 - 1000.2 - 2525 - 5050 - 150150 - 5002 - 400
400 - 500500 - 1000
1 - 5010 - 100100 - 30025 - 300300 - 700
505035355050504035302540353025253025302520453535504530303535255045404027
LO PowerPorts
LO & RF Port IF
ConversionLoss, dB(MAX.)
LO - RF,dB
(MIN.)
PerformanceBandwidth,
MHzPorts LO & RF
LO - IF,dB
(MIN.)
FC-7-0.05-100
FC-7-0.2-600
FC-7-2-1200
FC-10-10-2000
FC-10-10-3000
FC-13-10-4000
FC-20-0.05-100
FC-20-0.2-500
FC-20-2-1000
FC-25-1-50
FC-25-10-300
FC-25-30-700
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DC - 100
DC - 600
DC - 1200
10 - 2000
10 - 2000
10 - 2000
DC - 100
DC - 500
DC - 500
DC - 90
DC - 175
+7 dBm
+7 dBm
+7 dBm
+10 dBm
+10 dBm
+13 dBm
+20 dBm
+20 dBm
+20 dBm
+25 dBm
+25 dBm
+25 dBm
......
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505030305045353030302530252020202518252017402525403525253030204540353525
+0 dBm
+0 dBm
+0 dBm
+3 dBm
+3 dBm
+6 dBm
+13 dBm
+13 dBm
+13 dBm
+18 dBm
+18 dBm
+13 dBm
+13 dBm
+13 dBm
+15 dBm
+15 dBm
+17 dBm
+27 dBm
+27 dBm
+27 dBm
+32 dBm
+32 dBm
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1-dBInput Comp.
Level
Third OrderIntertcept
Point
Frequency Range, MHz Isolation................................ .........................
1 - 50 DC - 25 +18 dBm +32 dBm
Broad Band Mixers
TYPICAL PERFORMANCE SPECIFICATIONS
19
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1725 N. Salisbury Blvd. · PO Box 2828 · Salisbury, MD 21802
Ph. 800-780-2169, 410-860-5100 · Fax 410-860-1949
Web http://www.lorch.com · E-mail [email protected]
Broad Band Mixers
Flatpack, Style 11
SMA Connectorized
PC Mount, Style 22
20