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Agilent 4294A Precision Impedance Analyzer
Data Sheet
Specifications
Specifications describe the instrument's warranted performance over the temperature range of 0 C to 40 C (except as noted). Supplemental performance characteristics are intended to provide information that is useful in applying the instrument by given non-warranted performance parameters. These are denoted as SPC (supplemental performance characteristics), typical, or nominal. Warm-up time must be greater than or equal to 30 minutes after power on for all specifications.
Basic Characteristics
Measurement Parameter
Impedance Parameters |Z|-, R-X, Ls-Rs, Ls-Q, Cs-Rs, Cs-Q, Cs-D, |Y|-, G-B, Lp-G, Lp-Q, Cp-G, Cp-Q, Cp-D, Complex Z-Y, |Z|-Ls, |Z|-Cs, |Z|-Lp, |Z|-Cp, |Z|-Rs, |Z|-Q, |Z|-D, Lp-Rp, Cp-Rp
Measurement Terminal
Configuration Connector type Four-terminal pair configuration Four BNC (female) connectors. Can be converted to one port terminal using the Agilent 42942A Terminal Adapter (7-mm port) or 42941A Impedance Probe (3.5-mm port).
Source Characteristics
Frequency Range 40 Hz to 110 MHz Resolution 1 mHz
Accuracy without Option 4294A-1D5 20 ppm (at 23 5 C) 40 ppm (at 0 to 55 C) 0.13 ppm (at 0 to 55 C)
with Option 4294A-1D5
Voltage Signal Level Range Resolution Accuracy at four-terminal pair port of the 4294A or 7-mm port of the 42942A at measurement port of the 42941A, 16048G/H [(10 + 0.05 X f)% + 1 mV] (at 23 5 C) 5 mVrms to 1 Vrms 1 mV
[(15 + 0.1 X f)% + 1 mV] (at 23 5 C)
NOTE f: frequency [MHz]. These characteristics apply when OPEN is connected to each port. Test signal level should be 0.5 Vrms when the measured impedance is 50 . Beyond 23 5 C of temperature, test signal level setting accuracy is twice as bad as described.
Current Signal Level Range Resolution Accuracy at four-terminal pair port of the 4294A at 15 MHz +[10% + 50 A], -[(10 + 0.2 X f 2)% + 50 A] (at 23 5 C, typical) [(10 + 0.3 X f)% + 50 A] (at 23 5 C, typical) 200 Arms to 20 mArms 20 A
at >15 MHz
at 7-mm port of the 42942A at 5 MHz +[10% + 50 A], -[(10 + 1 X f 2)% + 50 A] (at 23 5 C, typical) [(10 + 0.3 X f)% + 50 A] (at 23 5 C, typical)
at >5 MHz
2
at measurement port of the 42941A, 16048G/H at 5 MHz +[10% + 50 A], -[(15 + 1.5 X f 2)% + 50 A] (at 23 5 C, typical) [(20 + 0.3 X f)% + 50 A] (at 23 5 C, typical)
at >5 MHz
NOTE f: frequency [MHz]. These characteristics apply when SHORT is connected to each port. Test signal level should be 20 mArms when the measured impedance is 50 .
Signal Level Monitor Voltage range Voltage monitor accuracy at four-terminal pair port of the 4294A or 7-mm port of the 42942A at measurement port of the 42941A, 16048G/H Current range Current monitor accuracy at four-terminal pair port of the 4294A or 7-mm port of the 42942A at measurement port of the 42941A, 16048G/H (10 + 0.3 X f + ZX /100)[%] (at 23 5 C, typical) (10 + 0.05 X f + 100/ZX)[%] (at 23 5 C, typical) (Same as the voltage signal level setting range)
(10 + 0.15 X f + 100/ZX)[%] (at 23 5 C, typical) (Same as the current signal level setting range)
(10 + 0.4 X f + ZX/100)[%] (at 23 5 C, typical)
NOTE f: frequency [MHz], ZX impedance measurement value []. Beyond 23 5 C, the test signal level monitor accuracy is twice as bad as described.
Output Impedance Output impedance 25 (nominal)
3
DC Bias Function
DC voltage bias Range Resolution Accuracy 0 to 40 V (see Figure 1) 1 mV [0.1% + (5 + 30 X |Imon|) mV](at 23 5 C) [0.2% + (10 + 30 X |Imon|) mV](beyond 23 5 C)
DC current bias Range Resolution Accuracy 0 to 100 mA (see Figure 1) 40 A [2% + (0.2 + |Vmon|/20) mA] (at 23 5 C) [4% + (0.4 + |Vmon|/20) mA] (beyond 23 5 C)
DC voltage bias at constant voltage mode Range Resolution Accuracy 0 to 40 V (see Figure 1) 1 mV [0.5% + (5 + Zd X |Imon|) mV] (at 23 5 C, typical) [1.0% + (10 + Zd X |Imon|) mV] (beyond 23 5 C, typical)
DC current bias at constant current mode Range Resolution Accuracy 0 to 100 mA (see Figure 1) 40 A [1% + (0.5 + |Vmon|/10000) mA] (at 23 5 C, typical) [2% + (1.0 + |Vmon|/5000) mA] (beyond 23 5 C, typical)
DC bias monitor DC voltage range DC voltage accuracy (Same as the dc voltage bias setting range) [0.2% + (5 + Zd X |Imon|) mV] (at 23 5 C) [0.4% + (10 + Zd X |Imon|) mV] (beyond 23 5 C) (Same as the dc current bias setting range)
DC current range
4
DC current monitor accuracy
[1% + (0.5 + |Vmon|/10000)mA] (at 23 5 C) [2% + (1.0 + |Vmon|/5000)mA] (beyond 23 5 C) 25 (nominal)
Output impedance
NOTE Vmon : Imon : Zd = Zd = Zd Zd Zd
dc voltage bias monitor reading value [mV] dc current bias monitor reading value [mA] 0.3 (at four-terminal pair port of the 4294A, adapter setup: NONE) 2.0 (at 3.5 mm port of the 42941A, adapter setup: 42941A Impedance Probe) = 0.5 (at 7-mm port of the 42942A, adapter setup: 42942A Terminal Adapter) = 1.0 (at measurement port of the 16048G, adapter setup: four-terminal pair 1 m) = 1.5 (at measurement port of the 16048H, adapter setup: four-terminal pair 2 m)
Figure 1. DC Bias Range (SPC) Sweep Characteristics
Available sweep parameters Frequency, Signal voltage, Signal current, DC bias voltage, DC bias current Linear, Log1, List1, Zero-span, Manual Available for all sweep types Up sweep, Down sweep 2 to 801 points
Sweep type Manual sweep Sweep direction Number of measurement points List Sweep Available setup parameters for each segment
Sweep frequency range, Number of measurement points, Signal level (voltage or current), DC bias (voltage or current), Measurement bandwidth, Point averaging factor
1. Frequency sweep only.
5
Number of segments Sweep span type Delay time Type Range Resolution
1 to 18 Segment span or single span
Point delay or sweep delay 0 sec to 30 sec 1 msec
Measurement Time
Figure 2. Measurement Time (SPC) NOTE When the Agilent 42941A Impedance Probe or 42942A Terminal Adapter is used, measurement time is 1.5 times longer than the value in Figure 2.
6
Trigger Function
Trigger type Trigger source Continuous, Single, Number of groups Internal (Free run), External (BNC connector input), GPIB or LAN, Manual (Front key) Point trigger, Sweep trigger
Trigger event type
Measurement Bandwidth/Averaging
Measurement bandwidth Range Averaging Type Averaging factor Sweep-to-sweep averaging, Point averaging 1 to 256 (integer) 1 (Fast) to 5 (Precise), 5 steps
Adapter Setup
Adapter Selection NONE No adapter (the 16047E, etc. direct connection type test fixture is connected) Four-terminal pair 1 m (16048G) Four-terminal pair 2 m (16048H) Terminal Adapter (42942A) Impedance Probe (42941A)
4TP 1M 4TP 2M 7-mm 42942A PROBE 42941A
Calibration
Calibration User calibration Calibration performed with user-defined calibration kit (OPEN, SHORT, LOAD) Compensation performed when the measurement terminal is expanded from the 7-mm connector of the 42942A Terminal Adapter or the 3.5-mm connector of the 42941A Impedance Probe. Enter electrical length or delay time for the extension. Compensation performed at the device contacts of the test fixture using OPEN, SHORT, LOAD. Fixed points, or User points determined by sweep setups
Port extension
Fixture compensation
Calibration points
7
Measurement Accuracy
Conditions of Accuracy Specifications Temperature Four-terminal pair port of the 4294A's front panel 23 5 C Beyond 23 5 C, the measurement accuracy is twice as bad as described. Within 5 C from the adapter setup temperature. Measurement accuracy applies when the adapter setup is performed at 23 5 C. When the adapter setup is performed beyond 23 5 C, the measurement accuracy is twice as bad as described. Within 5 C from the adapter setup temperature. Measurement accuracy applies when the adapter setup is performed at 23 5 C. When the adapter setup is performed beyond 23 5 C, the measurement accuracy is twice as bad as described. Within 5 C from the adapter setup temperature. Measurement accuracy applies when the adapter setup is performed at 23 5 C. When the adapter setup is performed beyond 23 5 C, the measurement accuracy is twice as bad as described. 5
7-mm port of the 42942A Terminal Adapter
3.5-mm port of the 42941A Impedance Probe
Measurement terminal of the 16048G or 16048H
Measurement bandwidth
Measurement Accuracy |Z|, |Y| accuracy E [%] (see Equation 1 on page 10, Equation 2 on page 12, Equation 3 on page 14) E /100 [rad]
accuracy L, C, X, B accuracy at Dx 0.1 at Dx >0.1 R accuracy
E [%] E X 1+ bD
x
2
[%]
8
at Dx 0.1 (Qx 10)
Rs: E/Dx [%] at 0.1 2 2
Rs: E at Dx 10 (Qx 0.1) D accuracy at Dx 0.1 at 0.1 E X (1 + Dx)/100
2 Qx X E(1 + Dx)/100 1 Qx X E(1 + Dx)/100
at Qx >10 (Dx <0.1)
1
G accuracy at Dx >0.1 E 1 + Dx Dx
2
at Dx 0.1
E/Dx [%]
NOTE Dx : measurement value of D. Qx : measurement value of Q. Da : measurement accuracy of D.
2 Qx X E/100 Qx X E/100
Rp:
E [%] Dx E/100
1 + Dx Dx
[%]
[%]
9
Impedance Measurement Accuracy at Four-Terminal Pair Port Equation 1 shows the impedance measurement accuracy [%] at four-terminal pair port of the Agilent 4294A, or measurement port of the 16048G/16048H. Equation 1. Impedance Measurement Accuracy [%] at Four-Terminal Pair Port E = Ep' + Where, EP' = EPL + EPBW + EPOSC + EP [%] YO' = YOL + KBW X KyOSC X (YODC + YO) [S] ZS' = ZSL + KBW X KzOSC X ZS [] Yo, Ep, Zs: See Figure 3 on page 17.
Eposc [%] = at oscillator level >500 mV 0.03
Z ( |Z '| + Y ' . |Z | )
s o x x
100
( ( ( (
-1
1000 VmV 500 VmV 250 VmV 125 VmV
-1
) ) ) )
+
f 100
at oscillator level >250 mV, 500 mV at oscillator level >125 mV, 250 mV at oscillator level >64 mV, 125 mV at oscillator level 64 mV
0.03
-1
0.03
-1
0.03
-1
(
64 VmV
)
(0.03 + EPBW)
Kyosc = at oscillator level >500 mV at oscillator level 500 mV Kzosc = at oscillator level >500 mV at oscillator level >250 mV, 500 mV at oscillator level >125 mV, 250 mV at oscillator level >64 mV, 125 mV at oscillator level 64 mV 2 500 VmV 250 VmV 125 VmV 64 VmV 1000 VmV 500 VmV
10
EPBW [%] = at measurement BW = 5 at measurement BW = 4 frequency 50 kHz frequency <50 kHz at measurement BW = 3 frequency 50 kHz frequency <50 kHz at measurement BW = 2 frequency 50 kHz frequency <50 kHz at measurement BW = 1 frequency 50 kHz frequency <50 kHz KBW = at measurement BW = 5 at measurement BW = 4 at measurement BW = 3 frequency 1 MHz frequency >1 MHz at measurement BW = 2 frequency 1 MHz frequency >1 MHz at measurement BW = 1 frequency 1 MHz frequency >1 MHz YODC = at dc bias range = 1 mA at dc bias range = 10 mA at dc bias range = 100 mA 0 [S] 1 [S] 10 [S] 6 10 4 5 3 4 1 1 0.4 0.8 0.2 0.4 0.1 0.2 0.03 0.06 0
11
EPL [%] = when 16048G is used 0.02 + 2 X f 100 f 100
when 16048H is used
0.02 + 3 X
YOL = when 16048G is used 500 X f [nS] 100
when 16048H is used
1 X f [S] 100
ZSL = when 16048G or 16048H is used frequency 500 Hz frequency <500 Hz 2 [m] 5 [m]
NOTE SPC at frequency >10 MHz. f : frequency in MHz. VmV : oscillator level in mV Impedance Measurement Accuracy at 7-mm Port of the Agilent 42942A Equation 2 shows the impedance measurement accuracy [%] at 7-mm port of the 42942A Terminal Adapter. Equation 2. Impedance Measurement Accuracy [%] at 7-mm Port of the Agilent 42942A E = Ep' + Where, EP' = EPBW + EPOSC + EP [%] YO' = KBW X KyOSC X (YODC + YO) [S] ZS' = KBW X KzOSC X ZS [] Yo, Ep, Zs: See Figure 3 on page 17.
Eposc [%] = at oscillator level >500 mV f 100 at oscillator level >125 mV, 500 mV 0
Z ( |Z '| + Y ' . |Z | )
s o x x
100
(
VmV 500
-1
)
12
at oscillator level 125 mV
(
1
125 VmV
-1
)
(0.05 + EPBW)
Kyosc = at oscillator level 500 mV at oscillator level <500 mV
500 VmV
Kzosc = at oscillator level >500 mV 2+ 500 VmV 250 VmV 125 VmV f 100
at oscillator level >250 mV, 500 mV at oscillator level 250 mV, >125 mV at oscillator level 125 mV
EPBW [%] = at measurement BW = 5 at measurement BW = 4 frequency 50 kHz frequency <50 kHz at measurement BW = 3 frequency 50 kHz frequency <50 kHz at measurement BW = 2 frequency 50 kHz frequency <50 kHz at measurement BW = 1 frequency 50 kHz frequency <50 kHz KBW = at measurement BW = 5 at measurement BW = 4 1 1 0.4 0.8 0.2 0.4 0.1 0.2 0.03 0.06 0
13
at measurement BW = 3 at measurement BW = 2 at measurement BW = 1 YODC = at dc bias range = 1 mA at dc bias range = 10 mA at dc bias range = 100 mA
3 4 6
0 [S] 1 [S] 10 [S]
NOTE f : frequency in MHz. VmV : oscillator level in mV. Impedance Measurement Accuracy at 3.5-mm Port of the Agilent 42941A Equation 3 shows the impedance measurement accuracy [%] at 3.5-mm port of the 42941A Impedance Probe. Equation 3. Impedance Measurement Accuracy [%] at 3.5-mm Port of the Agilent 42941A E = Ep' + Where, EP' = EPBW + EPOSC + EP [%] YO' = KBW X KyOSC X (YODC + YO) [S] ZS' = KBW X KzOSC X ZS [] Yo, Ep, Zs: See Figure 3 on page 17.
Eposc [%] = at oscillator level >500 mV f 100 at oscillator level >125 mV, 500 mV at oscillator level 125 mV 0
Z ( |Z '| + Y ' . |Z | )
s o x x
100
(
-1
VmV 500
-1
)
(
1
125 VmV
)
(0.05 + EPBW)
Kyosc = at oscillator level 500 mV at oscillator level <500 mV
500 VmV
14
Kzosc = at oscillator level >500 mV 2+ 500 VmV 250 VmV 125 VmV f 100
at oscillator level >250 mV, 500 mV at oscillator level 250 mV, >125 mV at oscillator level 125 mV
EPBW [%] = at measurement BW = 5 at measurement BW = 4 frequency 50 kHz frequency <50 kHz at measurement BW = 3 frequency 50 kHz frequency <50 kHz at measurement BW = 2 frequency 50 kHz frequency <50 kHz at measurement BW = 1 frequency 50 kHz frequency <50 kHz KBW = at measurement BW = 5 at measurement BW = 4 at measurement BW = 3 at measurement BW = 2 at measurement BW = 1 YODC = at dc bias range = 1 mA at dc bias range = 10 mA at dc bias range = 100 mA 0 [S] 1 [S] 10 [S] 1 1 3 4 6 0.4 0.8 0.2 0.4 0.1 0.2 0.03 0.06 0
15
NOTE f : frequency in MHz. VmV : oscillator level in mV.
Temperature Coefficient of the Agilent 42941A Impedance Probe (SPC) Proportional part (at 50 measurement) |Z| deviation [ppm/C] at frequency 1 MHz at frequency >1 MHz <5 20 + 500 X f 100
deviation [rad/C] at frequency 1 MHz at frequency >1 MHz, 5 MHz at frequency >5 MHz, 30 MHz at frequency >30 MHz Residual part Residual impedance 5X f [m/C] 100 <5 30 X f 5 f 30
50 + 150 X 200
Residual admittance
f [S/C] 100
NOTE f : frequency in MHz. These characteristics apply when the temperature of the probe (tip to 30 cm) is changed.
16
Figure 3. Parameters Yo, Ep, and ZS
17
Figure 4. Examples of Calculated Impedance Measurement Accuracy at Four-Terminal Pair Port of the Agilent 4294A's Front Panel (Oscillator Level = 0.5 Vrms)
18
Figure 5. Impedance Measurement Accuracy at 7-mm Port of the Agilent 42942A Terminal Adapter Connected to the Agilent 4294A (Oscillator Level = 0.5 Vrms)
19
Figure 6. Impedance Measurement Accuracy at 3.5-mm port of the Agilent 42941A Impedance Probe Connected to the Agilent 4294A (Oscillator Level = 0.5 Vrms)
20
Display Function
Display Size/Type Number or pixels Scale type X axis scale Y axis scale Number of traces Data trace Memory trace Split display 2 traces (trace A and trace B) 2 traces (trace A and trace B) Available (trace A: upper half, trace B: lower half) Linear and Log Linear and Log (depends on the sweep type) 8.4 inch color LCD (TFT) 640 X 480 (VGA)
Instrument/IBASIC display selection All Instrument, Half Instrument and half IBASIC, all IBASIC, or Instrument and IBASIC status. Other display function Data math function
1. Complex Z-Y measurement only. 2. Except for Complex Z-Y measurement.
Inactive trace off, Trace accumulation, Phase expansion Data--Memory, Data/Memory1, Delta%2, Offset
Marker Function Marker type and number Main marker Sub marker marker Marker search Search type Search track Marker X-axis display Maximum, Minimum, Target, Peak, Trace bandwidth analysis Performs search by each sweep Sweep parameter value, Sweep elapsed time, or Relaxation time (1/2f) Marker continuous mode, marker mode, Marker coupled mode, Marker value substitution (Marker), Marker zooming, Marker list, Marker statistics, Marker signal/dc bias monitor One for each trace (A and B). Seven for each trace (A and B). One for each trace (A and B).
Others
21
Equivalent Circuit Analysis Circuit model Analysis type 3 component model (4 models), 4 component model (1 model) Equivalent circuit parameters calculation, Frequency characteristics simulation
Limit Line Test
Available setup parameters for each Sweep start value, sweep stop value, upper limit (middle value) segment and lower limit (delta limit) for sweep start, upper limit (middle value) and lower limit (delta limit) for sweep stop Number of segments Other functions 1 to 18 Beep fail, Limit line offset
Mass Storage
Flexible disk drive Type Size Format Formatting Volatile memory disk Size 512 KB 3.5 inch, Built-in 1.44 MB DOS Available
Non-volatile memory disk (Flash memory) Size Stored data 10 MB State (binary), Data (binary or ASCII), Display graphics (TIFF)
Printer Parallel Port
Interface Standard Printer control language Connector type IEEE 1284 Centronics HP PCL3 printer control language 25 pin D-SUB connector
22
GPIB
Standard conformity Available functions (function code)1 IEEE 448.1-1987, IEEE 488.2-1987, IEC 625, JIS C ,1901-1987 SH1, AH1, T6, TE0, L4, LE0, SR1, RL1, PP0, DC1, DT1, C1, C2, C3, C4, C11, E2 ASCII, 32 or 64 bit IEEE 754 floating point format, DOS PC format (32 bit IEEE reversed byte order)
Numeric data transfer format
1. See document of the standard for the meaning of each code.
Instrument BASIC
Keyboard Type Connector Type PS/2 style 101 English Mini-DIN connector
8 Bit I/O Port
Connector type Signal level Number of I/O bit Pin assignment 15 pin D-SUB connector TTL 4 bit for input, 8 bit for output (see Figure 7)
Figure 7. 8 Bit I/O Port Pin Assignment
23
24 Bit I/O Port (Handler Interface)
Connector type Signal level Number of I/O bit Pin Assignment 36 pin D-SUB connector TTL 8 bit for input or output, 16 bit for output (see Figure 8 and Table 1)
18 17 16 15 14 13 12 11 10 9
8
7
6
5
4
3
2
1
36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19
Figure 8. 24 Bit I/O Port Pin Assignment Table 1. 24 Bit I/O Port Pin Assignment
Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Signal Name GND INPUT1 OUTPUT1 OUTPUT2 Output port A0 Output port A1 Output port A2 Output port A3 Output port A4 Output port A5 Output port A6 Output port A7 Output port B0 Output port B1 Output port B2 Output port B3 Signal Standard 0V TTL level, pulse input, pulse width: 1 s or above TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output
24
Table 1. 24 Bit I/0 Port Pin Assignment
Pin No. 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 Signal Name Output port B4 Output port B5 Output port B6 Output port B7 Input/Output port C0 Input/Output port C1 Input/Output port C2 Input/Output port C3 Input/Output port D0 Input/Output port D1 Input/Output port D2 Input/Output port D3 Port C status Port D status Write strobe signal +5 V pullup SWEEP END signal +5 V PASS/FAIL signal PASS/FAIL write strobe signal TTL level, active low, pulse output (width: 20 s, typical) +5 V, 100 mA MAX TTL level, PASS: HIGH, FAIL; LOW, latch output TTL level, active low, pulse output (width: 10 s, typical) Signal Standard TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, latch output TTL level, input mode; LOW, output mode: HIGH TTL level, input mode; LOW, output mode: HIGH TTL level, active low, pulse output (width: 10 s, typical)
LAN Interface Standard conformity Protocol Supported application 10 Base-T Ethertwist, RJ45 connector TCP/IP Telnet, FTP, FTP with automatic execution
25
General Characteristics
External Reference Input
Frequency Level Input impedance Connector type 10 MHz 10 ppm (typical) - 5 dBm to +5 dBm (typical) 50 (nominal) BNC (female)
Internal Reference Output
Frequency Level Output impedance Connector type 10 MHz (nominal) 0 dBm (typical) 50 (nominal) BNC (female)
High Stability Frequency Reference Output (Option 4294A-1D5)
Frequency Level Output impedance Connector type 10 MHz (nominal) 0 dBm (typical) 50 (nominal) BNC (female)
External Trigger Input
Level Pulse width (Tp) Polarity Connector type TTL 2 s (typical); see Figure 9 for the definition of Tp. Positive or Negative (selective) BNC (female)
26
Tp 5V 0V
Tp 5V 0V
Tp
Tp
Positive Trigger Signal Negative Trigger Signal
Figure 9. Required Pulse Width (Tp) for External Trigger Input
External Program RUN/CONT Input
Level Connector type TTL BNC (female)
External Monitor Output
Connector type Display resolution D-SUB, 15 pin HD 640 X 480 (VGA)
Operating Conditions
Temperature Disk drive non-operating condition Disk drive operating condition Humidity (at wet bulb temperature 29 C, without condensation) Disk drive non-operating condition Disk drive operating condition Altitude Warm-up time 15% to 95% RH 0 C to 40 C
10 C to 40 C
15% to 80% RH 0 m to 2,000 m 30 minutes
27
Non-operating Conditions
Temperature Humidity (at wet bulb temperature 45 C, without condensation) Altitude -20 C to +60 C 15% to 95% RH
0 m to 4,572 m
Others
EMC EN 55011(1991)/CISPR 11(1990) Group 1, Class A EN 50082-1(1992)/IEC 61000-4-2(1995) 4 kV CD, 8 kV AD EN 50082-1(1992)/IEC 61000-4-3(1995) 3 V/m, 27 MHz to 1 GHz EN 50082-1(1992)/IEC 61000-4-4(1995) 0,5 kV Signal Line, 1 kV Power Line EN 61000-3-2(1995)/IEC 61000-3-2(1995) EN 61000-3-3(1995)/IEC 61000-3-3(1994)z EN 61010-1(1993) +Amd2(1995)/IEC61010-1(1990) +Am1(1992) +Am2(1995) CSA-C22.2 N0.1010.1-92 90 V to 132 V, or 198 V to 264 V (automatically switched), 47 Hz to 63 Hz, 300 VA max. 25 kg (SPC) See Figures 10 through 12.
Safety
Power requirement
Weight Dimensions
28
Figure 10. Agilent 4294A dimensions (front view, with Option 4294A-1CN/4294A-1D5, typical, in millimeters)
Figure 11. Agilent 4294A dimensions (rear view, with Option 4294A-1CN/4294A-1D5, typical, in millimeters)
29
46.0
502
23.4
221
13.1
11.1
Figure 12. Agilent 4294A dimensions (side view, with Option 4294A-1CN/4294A-1D5, typical, in millimeters)
30
19.8
211
Furnished Accessories
Agilent Part Number 04294-900X0/04294-970X0 04294-900X1/04294-970X1 E2083-90005 04294-901X0 04294-180X0 04294-61001 ------ ------ 1250-1859 5063-9229 5063-9216 5063-9223 Description Operation Manual (English/Japanese)1 Programming Manual (English/Japanese)1 Instrument BASIC User's Handbook1 Service Manual2 Sample Program Disk (3.5 inch)1 100 Resister Mini-DIN Keyboard3 Power Cable4 BNC Adapter5 Handle Kit6 Rackmount Kit7 Rackmount & Handle Kit8 Qty 1 1 1 1 1 1 1 1 1 1 1 1
1. 2. 3. 4. 5. 6. 7. 8.
Not furnished if Option 4294A-ABA/ABJ (English/Japanese manual) is not designated. Option 4294A-0BW (Add service manual) only. Not furnished if Option 4294A-810 (add keyboard) is not designated. The power cable depends on which country the instrument is used in. Option 4294A-1D5 (high stability frequency reference) only. Option 4294A-1CN (handle kit) only. Option 4294A-1CM (rackmount kit) only. Option 4294A-1CP (rackmount and handle kit) only.
31
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(877) 894-4414 305 269 7500 (800) 829-4444
1 800 629 485 800 810 0189 800 938 693 1 800 112 929 0120 (421) 345 080 769 0800 1 800 888 848 1 800 375 8100 0800 047 866 1 800 226 008
Europe & Middle East Austria 0820 87 44 11 Belgium 32 (0)2 404 93 40 Denmark 45 70 13 15 15 Finland 358 (0)10 855 2100 France 0825 010 700* *0.125 /minute
Germany 01805 24 6333**
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Revised: March 27, 2008
Product specifications and descriptions in this document subject to change without notice. (c) Agilent Technologies, Inc., 1999, 2000, 2002, 2003, 2008 Printed in USA, April 10, 2008 5968-3809E

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