SSB UPCONVERTERS AND VECTOR MODULATORS/PHASE SHIFTERS
9
CARRIER DRIVEN MODULATION DRIVEN
(LINEAR IF QAM) (LINEAR RF PM)
FREQUENCY RANGE (NOTE 1) (NOTE 2)
RF IF CARRIER SIDEBAND CARRIER SIDEBAND CONVERSION
MODEL IN AND OUT (GHz) REJECTION REJECTION REJECTION REJECTION LOSS
NUMBER (GHz) (Note 3) (dBc) (dBc) (dBc) (Typ./Min.) (Typ./Max.) OUTLINES NOTES
SDM0501LC1 0.5 – 1 DC – 0.5 25 18 33 25 / 15 8 / 10 8
SDM0502LC1 0.5 – 2 DC – 0.5 25 18 33 25 / 15 8 / 10 8
SDM0102LC1 1 – 2 DC – 0.5 25 20 35 25 / 15 8 / 10 8
SDM0104LC1 1 – 4 DC – 0.5 30 20 34 25 / 15 8 / 10 8
SME0104LI1 1 – 4 DC – 0.5 30 30 35 35 / 27 10 / 12 22 8
SDM0204LC1 2 – 4 DC – 0.5 30 20 35 20 / 18 8 / 10 8
SM0208LC2 2 – 8 DC – 0.5 20 20 25 20 / 18 9 / 11 13
SME0208LI1 2 – 8 DC – 0.5 20 30 25 35 / 27 11 / 13 22 8
SMC0208LI1 2 – 8 DC – 0.5 30 25 35 25 / 23 7 / 10 21
SM0408LC2 4 – 8 DC – 0.5 25 24 30 24 / 20 6 / 9 13
SM0812LC2 8 – 12 DC – 0.5 25 23 30 23 / 20 6 / 9 13
SM0218LC1 2 – 18 DC – 0.5 12 18 25 18 / 15 9.5 / 11 9
SM0618LC2 6 – 18 DC – 0.5 12 18 25 20 / 18 8 / 9 13
SME0618HI1 6 – 18 DC – 0.5 N/A N/A 25 28 / 25 10 / 13 22 PIN diodes, 8
SME0618LI1 6 – 18 DC – 0.5 20 28 25 28 / 25 10 / 13 22 Schottky diodes, 8
SML0618LC2 6 – 18 DC – 1 40 23 N/A N/A N/A 13 LO = 1/2 RF
SM1218LC2 12 – 18 DC – 1 15 15 20 23 / 20 7 / 9 13
SM0226LC1 2 – 26 DC – 0.5 15 15 20 18 /15 12 / 15 9
SME0618LI1AVC 6 – 18 DC – .01 N/A N/A 30 30 / 25 12 / 15 * Analog phase/vector
SME0618LI1DIQ 6 – 18 TTL N/A N/A 30 30 / 25 10 / 13 * Digital phase/vector
* Contact factory for outline drawings.
GENERAL
All modulators and SSB upconver ters require that at least one of the input frequency bands (carr ier or modulation) has sufficient power to turn on the
semiconductors used in the various designs (i.e., Schottky diodes or PIN diodes). All modulators yield a frequency spectrum that utilizes both sidebands
on either side of the output suppressed carrier. SSB upconver ters employ an internal IF 90 degree hybrid to yield only 1 RF sideband output. This is
offset above or below the input LO by the IF frequency (test data is recorded for the upper sideband only). Schottky diode (standard) modulators have
the greatest speed and bandwidths, but yield RF output powers of typically less than 0 dBm. PIN diode (optional) designs can only be driven at
modulation rates of less than 30 MHz, but will yield output RF powers exceeding +5 dBm. PIN or Schottky modulators that vary only the RF carrier
phase, in many discrete steps or continuously, are referred to as phase shifters or frequency translators respectively. When output RF amplitude and
phase control is required, the device is usually called a vector modulator. For the latter device, phase accuracy is usually specified over a given
amplitude range (in dB). All MITEQ modulators can be driven in the carrier or modulation modes as explained below, but test data is only recorded in
the modulation driven mode.
SECTION 3 NOTES
Note 1: Carrier driven: LO = +13 dBm, I/Q = 0 dBm. Used when any amplitude variation or pulse shape of the modulation must be accurately
transferred to the RF output envelope. A communication example would be directly modulating a microwave carrier with Gaussian shaped
I/Q digital pulses to minimize the channel bandwidth required.
Note 2: Modulation driven: RF = 0 dBm, I/Q = +10 dBm or ±10 mA or TTL. Used when RF input has wide dynamic range, such as for military and
commercial Doppler frequency shift generation or corrections. If desired, the har monic distortion of the relatively fixed and higher level I/Q
drive third order harmonics can be linearized by “resistance/diode” or digital “ROM” wave shaping techniques. The latter is often used in
vector modulator applications, such as in the model SME0618LI1DIQ design.
Note 3: To specify the IF frequency for SSB upconverter usage, select from the following standard options and add to end of model number or
contact MITEQ:
Suffix A: 20–40 MHz, Suffix B: 40–80 MHz, Suffix C: 100–200 MHz, Suffix D: 500–1000 MHz, Suffix Q: I/Q inputs
Note 4: Conversion loss (CL) is relative to lowest power input (fo, fm). All other outputs (including fo, are relative to the desired upper (fo+ fm) output.
Note 5: Standard units with IF hybrids are aligned for upper sideband operation. For lower sideband or selectable sideband, contact MITEQ.
Note 6: Last two characters in model number indicate standard outline number, see outline section.
Note 7: Question and answer modulator application notes available, contact factor y.
Note 8: Hermetically sealed housing.
SSB UPCONVERTERS WITH INTERNAL IF HYBRIDS
ANALOG OR DIGITALLY CONTROLLED VECTOR MODULATORS/PHASE SHIFTERS