General characteristics, Power requirements, Operating temperature range – Atec Agilent-E4421B-24B-32B-33B-35B-36B User Manual
Page 28: Storage temperature range, Shock and vibration, Leakage, Storage registers, Weight, Dimensions, Remote programming
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General characteristics
Power requirements
90 to 254 V; 50, 60, or 400 Hz;
200 W maximum
Operating
temperature range
0 to 55 °C
Storage
temperature range
–40 to 71 °C
Shock and vibration
Meets MIL-STD-28800E Type
III, Class 3.
Leakage:
Conducted and radiated interference meets MIL-STD-
461C CE02 Part 2 and CISPR 11. Leakage is typically <1 µV
(nominally 0.1 µV with a 2-turn loop) at
≤1000 MHz, measured
with a resonant dipole antenna, one inch from any surface with
output level <0 dBm (all inputs/outputs properly terminated).
Storage registers:
Memory is shared by instrument states,
user data files, sweep list files and waveform sequences.
Depending on the number and size of these files, up to 800
storage registers and 10 register sequences are available.
Weight
<13.5 kg (28 lb.) net, <19.5 kg (42 lb.)
shipping
Dimensions
133 mm H x 426 mm W x 432 mm D
(5.25 in H x 16.8 in W x 17 in D)
Remote programming
Interface GPIB (IEEE-488.2-1987) with listen and talk. RS-232.
Control languages SCPI version 1992.0, also compatible
with 8656B and 8657A/B/C/D/J
1
mnemonics.
Functions controlled All front panel functions except power
switch and knob.
IEEE-488 functions SH1, AH1, T6, TE0, L4, LE0, SR1, RL1,
PP0, DC1, DT0, C0, E2.
ISO compliant
The ESG series RF signal generators are manufactured in an ISO-
9001 registered facility in concurrence with Agilent Technologies
commitment to quality.
Accessories
Transit case
Part number 9211-1296
Remote interface
83300A
Inputs and outputs
All front panel connectors can be moved to rear with Option 1EM.
RF output
Nominal output impedance 50 ohms. (type-N female, front panel)
LF output
Outputs the internally-generated LF source.
Outputs 0 to 3 Vpeak into 50 ohms, or 0 to 5 V
peak
into high
impedance. (BNC, front panel)
External input 1
Drives either AM, FM,
ΦM, or burst envelope. Nominal input
impedance 50 ohms, damage levels are 5 V
rms
and 10 V
peak
.
(BNC, front panel)
External input 2
Drives either AM, FM,
ΦM, or pulse. Nominal input impedance 50
ohms, damage levels are 5 V
rms
and 10 V
peak
. (BNC, front panel)
Auxiliary interface
Used with 83300A remote keypad sequencer (9-pin RS-232
connector female, rear panel)
10 MHz input
Accepts a 10 MHz ±10 ppm (standard timebase) or ±1 ppm
(high-stability timebase) reference signal for operation with an
external timebase. Nominal input impedance 50 ohms. (BNC,
rear panel)
10 MHz output
Outputs the 10 MHz internal reference level nominally +7 dBm ±2
dB. Nominal output impedance 50 ohms. (BNC, rear panel)
GPIB
Allows communication with compatible devices. (rear panel)
Sweep output
Generates output voltage, 0 to +10 V when signal generator is
sweeping. Output impedance <1 ohm, can drive 2000 ohms.
(BNC, rear panel)
Trigger output
Outputs a TTL signal: high at start of dwell, or when waiting for
point trigger in manual sweep mode; low when dwell is over or
point trigger is received, high or low 4 µs pulse at start of LF sweep.
(BNC, rear panel)
Trigger input
Accepts TTL signal for triggering point-to-point in manual sweep
mode, or to trigger start of LF sweep. Damage levels
≥+10 V or
≤–4 V. (BNC, rear panel)
With ESG-AP and ESG-A series and
Option 1E6 only
Pulse input
Drives pulse modulation. Input impedance TTL. (BNC, front or
rear panel)
With ESG-DP and ESG-D series only
“I” input
Accepts an “I” input either for I/Q modulation or for wideband AM.
Nominal input impedance 50 ohms, damage levels are 1 V
rms
and 10
V
peak
. (BNC, front panel)
“Q” input
Accepts a “Q” input for I/Q modulation. Nominal input impedance
50 ohms, damage levels are 1 V
rms
and 10 V
peak
. (BNC, front panel)
1. ESG series does not implement 8657A/B “Standby” or “On” (R0 or R1, respectively) mnemonics.