Range 250 kHz to 1000 MHz: +13 to -136 dBm >1000 MHz to 3000 MHz: +10 to -136 dBm >3000 MHz to 4000
MHz: +7 to -136 dBm
Resolution 0.02 dB
Level Accuracy
2
(at 23 ±5°C) +7 to -127 dBm <-127 dBm 250 kHz to 2 GHz: ±0.5 dB ±1.5 dB
2 GHz to 4 GHz: ±0.9 dB ±2.5 dB
Attenuator Hold Level Range: >17 dB
Switching Speed: <25 ms typical With Power Search Mode: <210 ms typical
Reverse Power Protection: 250 kHz to 2000 MHz: 50 Watts >2000 MHz to 4000 MHz: 25 Watts Max DC Voltage:
50 V
SWR (typical) 250 kHz to 2000 MHz: <1.4:1 >2000 to 4000 MHz: <1.9:1
Output Impedance: 50 ohms
dBm. Level Accuracy with Digital Modulation (With ALC on; relative to CW; with PRBS-modulated data; if using I/Q
inputs, = [square root of (I
2
Accuracy degrades by 0.02 dB/°C over full temperature range and by 0.3 dB above +7
2
+ Q2)]=0.5 V
nominal)
rms
3
pi/4 DQPSK or QPSK Formats: ±0.15 dB (with raised cosine or root-raised cosine filter and alpha >=0.35; with 10
kHz <symbol rate <1 MHz; at RF Freq. >25 MHz; power <max. specified -3 dBm)
Constant Amplitude Formats (FSK, GSMK, etc.): no degradation in power level accuracy
Level Accuracy with ALC Off
ALC on; with burst off if external I/Q is enabled: [square root of (I
ALC on will be maintained with drive levels between 0. 25 and 1.0 V
4
: ±0.5 dB, typical (after power search is executed; relative to CW level accuracy with
2
+ Q2)]= 0.5 V
. 4When applying external I/Q signals with ALC
rms
) 3Typical, level accuracy with
rms
off, output level will vary directly with I/Q input level.
Frequency Bands
BandFrequency RangeN# 1 250 kHz to <=249.999 MHz 1 2 >249.999 to <=500 MHz 0.5 3 >500 MHz to <=1 GHz
1 4 >1 to <=2 GHz 2 5 >2 to 4 GHz 4
Spectral Purity SSB Phase Noise (typical,at 20 kHz offset) at 500 MHz: <-120 dBc/Hz at 1000 MHz: <-116 dBc/Hz at
2000 MHz: <-110 dBc/Hz at 3000 MHz: <-104dBc/Hz at 4000 MHz: <-104 dBc/Hz
Residual FM (CWmode, 0.3-3 kHz BW,CCITT, rms): Phase Noise Mode l: <N x 2 Hz Phase Noise Mode 2: <N x 4
Hz
Bandwidth ( 1 dB):20 MH z, typical Adjustments/Impairments ( nominal) DC Offset (I + Q independently adjustable ):
±100% I/Q Gain Ratio: ±4 dB
DC Vector Accuracy
(rms): <0.75% <0.5% 0.75% <1% Magnitude Error6 (rms): <0.5% <0.35% <0.5% <0.75% Phase Error6 (rms): <0.35°
<0.25° <0.35° <0.5° Origin Offset dBc: <-46 <-46 <-40 <-40
routine, provided temperature is maintained within ±5° C of calibration temperature.
5
: (relative to full scale, at <=+7 dBm) Frequency GHz: <0.6 0.6 to 2 2 to 3.7 <=4 Static EVM
5
Valid for 10 days after executing internal calibration
6
Measured at full scale with origin
6
offset removed.
Frequency Modulation
Maximum Deviati on: N x 10 MHz
Resolution: 0.1% of deviation or 1 Hz, whichever is greater
Deviation Accuracy (1 kHz rate, dev. <N x 100 kHz): <±(3.5% of FM deviation + 20 Hz)
Modulation Frequency Response (deviation = 100 kHz)
Path Rates 1 dB Bandwidth 3 dB Bandwidth, typical FM1 dc/20 Hz to 100 kHz dc/5 Hz to 10 MHz
FM2 dc/20 Hz to 100 kHz dc/5 Hz to 1 MHz
Distortion (1 kHz rate, THD, dev. = N x 100 kHz): <1%
Phase Modulation
Maximum Deviati on: N x 90 radians
Resolution: 0.1% of set deviation
Deviation Accuracy (1 kHz rate): <±(5% of deviation + 0.01 radians)
Modulation Frequency Response
PM Mode Maximum Rates (3 dB BW) Deviation PM1 PM2 Normal BW N x 90 rad dc to 100 kHz dc to 100 kHz
High BW N x 2pi rad dc to 1.5 MHz (typ) dc to 1 MHz (typ) N x pi/2 rad dc to 4 MHz (typ) dc to 0.9 MHz (typ)
Distortion (1 kHz rate, THD, dev <N x 90 rad): <1% Amplitude Modulation fc>500 kHz
Range (envelope peak<=max specified power): 0 to 100%
Resolution: 0.1%
Rates (3 dB Bandwidth): dc/10 Hz to 10 kHz
Distortion (1 kHz rate, THD) 30% AM: <1.5% 90% AM: <4%
Accuracy (1 kHz rate): <±(5% of setting + 1%) Wide Band AM
Rate (1 dB Bandwidth, typical) ALC On: 400 Hz to 10 MHz ALC Off: DC to 10 MHz
Input: I Input
Impedance: 50 ohms
Sensitivity: 0.5 V=100% Pulse Modulation
On/Off Ratio <=3 GHz: >80 dB >3 GHz: >60 dB
Rise/Fall Times: 150 ns, typical
Mi n imu m Wid th ALC On: 2 µs, typical ALC Off: 0.4 µs, typical
Pulse Repetition Frequency ALC On: 10 Hz to 250 kHz, typical ALC Off: DC to 1.0 MHz, typical
Level Accuracy (relative to CW)
7
: ±0.5 dB, typical
External Input: Ext 2
Input Voltage RF On: >+0.5 V, nominal RF Off: <+0.5 V, nominal
Input Impedance: 50 ohms, nominal
Internal Pulse Generator Squarewave Rate: 0.1 Hz to 50 kHz Pulse Period: 16 µs to 30 sec Pulse Width: 8 µs to 30
sec Pulse Resolution: 4 µs
1.0 V
On/Off Ratio V
. Burst Envelope
rms
IN
: <=-1.05 V <=3 GHz: >75 dB >3 GHz: >65 dB
7
Typical, level accuracy with ALC on will be maintained with drive levels between 0.25 and
Rise/Fall Time: <2 µs, typical
Minimum Burst Repetition Frequency ALC On: 10 Hz, typical ALC Off: DC
External Input: Ext 1
Input Impedance: 50 ohms
Input Voltage RF Off: -1.0 V RF On: 0 V Linear Control Range: 0 to -1.0 V Internal Modulation Source Provides FM,
PM, and AM Modulation Signals and LF Out
Waveforms: sine, square, ramp, triangle, pulse, noise
Rate Range Sine: 0.1 H z to 50 kHz Square, Ramp, Tri angle Optional I /Q Baseband Generator (Option UN3 or UN4)
Supported Standards: DECT, GSM, NADC, P DC, PHS,and TETRA
Data Structure Frames and timeslots may be configured as different types of traffic or control channels. The data field
of a timeslot can accept a user file, PRBS (PN9 or PN15), or external data with the appropriate clock.
Internal Data: Pseudorandom Patterns (meets ITU-T standard): Continuous PN9 (PRBS 2
9
-1) or PN15 7 (PRBS 215-1)
Repeating Sequence: any 4-bit sequence
Downloadable Data (User Files): Type: Serial Data Minimum Size: Must fill entire field for which it was selected
Maximum Size: 1 Mbits (Opt UN3), 8 Mbits (Opt UN4)
External Data: Type: Serial Data Inputs: Data, Bit/Symbol Clocks Accepts data rates ±5% of specified data rate
Reference Frequency Internal or External: 1, 2, 5, 10 MHz reference Data clock can be locked to the external 13 MHz
reference (GSM)
Frame Trigger Delay Control Range: 0 to 65,000 bits Resolution: 1 bit
Internal Burst Shape Control Rise/Fall Time Range: up to 30 bits Rise/Fall Delay Range: 0 to 63.5 bits (varies with
standard)
7
PN15 is not continuous in bursted mode for TETRA applications. NADC (Option UN3 or UN4)
Modulation Format: pi/4 DQPSK
Data Rate (default): 48.6 kbits/sec Adjustment Range: 40 to 7 5.5 kbits/sec
Filter: Root-Raised Cosine or Raised Cosine Default Value: alpha = 0.35 Range (alpha): 0.3, 0.35, 0.4, 0.5, 0.6
Error Vector Magnitude (%rms)
8
[see table 1]
Channel Spacing:30 kHz
Adjacent Channel Power
8
(ACP)
(Low ACP Mode, dBc, typical)
[see table 2]
Supported Burst Types: Custom, Up/Down TCH
8
Specifications apply for the frequency range, data rates and filter factors
(alpha) specified at power levels >=+7 dBm.
9
The "channel spacing" determines the offset size of the adjacent and alternate
channels: Adjacent Channel Offset=1xchannel spacing, 1st Alternate Channel =
2 x channel spacing, 2nd Alternate Channel=3xchannel spacing, 3rd Alternate
Channel=4xchannel spacing.
PDC (Option UN3 or UN4)
Modulation Format: pi/4 DQPSK
Data Rate (default): 42 kbits/sec
Adjustment Range:40 to 75.5 kbits/sec
Filter:Root-Raised Cosine or Raised Cosine
Default Value:alpha =0.5
Range (alpha):0.3, 0.35, 0.4, 0.5, 0.6
Error Vector Magnitude (% rms)
10
[see table 3]
Channel Spacing: 25 kHz
10
Adjacent Channel Power
(ACP)
(Low ACP Mode, dBc, typical)
[see table 4]
Supported Burst Types: Custom, Up/Down TCH, Up Vox
10
Specifications apply for the frequency range, data rates and filter factors
(alpha) specifiedat power levels >=+7 dBm.
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