ADVANTEST CORPORATION
V93000 Specifications
V93000 SOC MBAV8+ Analog Card
Published on April 22, 2014
? 2014 Advantest Corporation All rights reserved.
Notices
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?ADVANTEST is a trademark of Advantest Corporation.
?All other marks referenced herein are trademarks or registered trademarks of their respective owners. Warranty
The material contained in this document is provided "as is," and is subject to being changed, without notice, in future editions. Further, to the maximum extent permitted by applicable law, Advantest disclaims all warranties, either express or implied, with regard to this material and any information contained herein, including but not limited to the implied warranties of merchantability and fitness for a particular purpose. Advantest shall not be liable for errors or for incidental or consequential damages in connection with the furnishing, use, or performance of this material or of any information contained herein. Should Advantest and the user have a separate written agreement with warranty terms covering the material in this document that conflict with these terms, the warranty terms in the separate agreement shall control. Technology Licenses
The hardware and/or software described in this document are furnished under a license and may be used or copied only in accordance with the terms of such license.
Restricted Rights Legend
If software is for use in the performance of a U.S. Government prime contract or subcontract, Software is delivered and licensed as "Commercial computer software" as defined in DFAR 252.227-7014 (June 1995), or as a "commercial item" as defined in FAR 2.101(a) or as "Restricted computer software" as defined in FAR 52.227-19 (June 1987) or any equivalent agency regulation or contract clause. Use, duplication or disclosure of Software is subject to Advantest's standard commercial license terms for 93000 systems and non-DOD Departments and Agencies of the U.S. Government will receive no greater than Restricted Rights as defined in FAR 52.227-19(c)(1-2) (June 1987). U.S. Government users will receive no greater than Limited Rights as defined in FAR 52.227-14 (June 1987) or DFAR 252.227-7015 (b)(2) (November 1995), as applicable in any technical data.
Safety Notices
A CAUTION notice denotes a hazard. It calls attention to an operating procedure, practice, or the like that, if not correctly performed or adhered to, could result in damage to the product or loss of important data. Do not proceed beyond a CAUTION notice until the indicated conditions are fully understood and met.
A WARNING notice denotes a hazard. It calls attention to an operating procedure, practice, or the like that, if not correctly performed or adhered to, could result in death or severe injury. Do not proceed beyond a WARNING notice until the indicated conditions are fully understood and met.
Published on Tuesday, April 22, 2014.
Contents
V93000 SOC MBAV8+ Analog Card 1
Contents 3
V93000 SOC MBAV8+ Analog Card 5
MBAV8+ Overview 6
Software environment of using MBAV8+ 7
Source units (E9732B) 8
Measure units (E9732B, E9733B) 13
Baseband IQ calibration (E9732B, E9733B) 16
V93000 SOC MBAV8+ Analog Card Chapter 1
V93000 SOC MBAV8+ Analog Card
In This Chapter
MBAV8+ Overview (6)
Software environment of using MBAV8+ (7)
Source units (E9732B) (8)
Measure units (E9732B, E9733B) (13)
Baseband IQ calibration (E9732B, E9733B) (16)
Related information
For more information about the Advantest V93000 SOC Series, please visit https://www.doczj.com/doc/289002501.html,
(https://www.doczj.com/doc/289002501.html,).
Contact information
For more information about the Advantest V93000 SOC cards, please contact your local Advantest sales representative.
This information is subject to change without notice.
V93000 SOC MBAV8+ Analog Card
MBAV8+ Overview
The E9732B consists of 4 source and 4 measure units for Smart Scale systems.
The E9733B consists of 8 measure units for Smart Scale systems.
The E9728A is used for baseband IQ calibration of measure units of E9722A/B and E9732B/E9733B and multi-core analog diagnostics and calibration of E9714A/E9715A, E9722A/E9722B/E9723A/E9723B,
E9726A/E9726B and E9732B/E9733B.
The E9728B is used for baseband IQ calibration of source units of E9722A/B and E9732B.
Related information
Two models of MBAV8+ (MCE)
Baseband IQ calibration (E9732B, E9733B) (page 16)
V93000 SOC MBAV8+ Analog Card
Software environment of using MBAV8+
Test programming and debug
The SmarTest production test environment includes manufacturing test interfaces to operators, handling equipment and factory networks. A flow sequence editor and a flow data editor link device tests into a production-ready test program, where the tests are set up with test methods in C/C++. Links are available for design-to-test conversion. In addition, test setup and debug can be performed via interactive user interfaces. Result analysis tools are available for error locations, timing behavior, analog waveforms, shmoo plots, pin margin tests and memory bit map.
Compatibility
MBAV8+ is configured for use on Smart Scale based systems. The MBAV8+ must be installed in a slot powered by universal DCDC power units (E8003AA).
MBAV8+ requires SmarTest release 7.1.2 or higher.
Operating system: Linux Red Hat Enterprise 5.6 or later releases
Scope of specifications
The V93000 specifications are valid at the device with an adequate DUT board, valid calibration (system calibration, see section "Calibration and operation" below), and fixture delay measurement (TDR).
Since design and manufacturing of the DUT board are beyond Advantest's control, Advantest specifies up to the pogo level and verifies the specifications at the pogo level.
Specifications describe warranted product performance. Characteristics, included as typical values, provide additional useful information, but do not represent warranted performance. These specifications are valid for recommended system configurations.
MBAV8+ (E9732B/E9733B) requires the E9728A and E9728B calibration/diagnostic boards for baseband IQ calibration.
Calibration and operation
Warm-up time 60 minutes
Basic maintenance period 6 months
6 months
Base calibration period (traceable
calibration)
Calibration period (system auto
3 months 1)
adjustment)
DC update period 2 weeks
1 Valid at ambient temperature within ±2.5 K of calibration temperature. For temperature requirements during calibration, see the Maintenance Guide.
Environmental
Operating 15°C to 30°C
(59°F to 86°F)
Specification guarantee temperature 20°C to 30°C
(68°F to 86°F)
Maximum humidity at 30°C < 80% R. H.,
non-condensing
Storage (without water) -40°C to +70°C
Related information
MBAV8+ specifications
Baseband IQ calibration (E9732B, E9733B) (page 16)
MCE in MCA or MCB Compatible Mode
V93000 SOC MBAV8+ Analog Card
Source units (E9732B)
Selectable function: LF AWG, HF AWG, VHF AWG, V source, PMU, or HP-PMU
LF AWG
Specification Value
Sampling rate 32 ksps to 1.024 Msps
Resolution 24 bit
Pin counts 2 single-ended (one at a time) or 1 differential per source
unit
For multisite BB/VHF plus analog source and measuring:
4 source units per module, 4-parallel test
Waveform memory 15.7 M per source unit
Max. sine wave
frequency
125 kHz @ 1 Msps 1)
Output range 6 Vp-p @ 600 Ω to GND without sinc(x) effect
Attenuation 0 to 70 dB (for DC to 40 kHz)
0.01 dB step @ 0 to 20 dB
DC offset range ±3 V @ 600 Ω to GND (15-bit resolution)
Independent DC offset
adjustment
±0.25 V > 10 kΩ load (12-bit resolution)
Output level (AC+DC) -4 V < AC+DC < 4 V @ 600 Ω load to GND
Output impedance 50 Ω nominal
Filter 125 kHz, 1.5 kHz, 30 kHz
Cut-off frequency is nominal 2)
Absolute DC accuracy Not specified
THD (up to 5th harmonic),
600 Ω load (characteristic data) -120 dBc @ 1 kHz, 5 Vp-p, without offset, 1.024 Msps, 1.5 kHz filter
-108 dBc @ 20 kHz, 5 Vp-p, without offset, 1.024 Msps, 30 kHz filter
SFDR (100 to 100 kHz) 600 Ω load (characteristic data) 113 dBc @ 1 kHz, 5 Vp-p, without offset, 1.024 Msps, 1.5 kHz filter
108 dBc @ 20 kHz, 5 Vp-p, without offset, 1.024 Msps, 30 kHz filter
SNR (100 to 30kHz) 600 Ω load (characteristic data) 110 dB @ 1 kHz, 6 Vp-p, without offset, 1.024 Msps, 1.5 kHz filter, EIAJ A-weighted
102 dB @ 10 kHz, 5 Vp-p, without offset, 1.024 Msps, 30 kHz filter, 100 kHz bandwidth
1 Fundamental signal at maximum sine wave frequency is 55 dBc away from aliasing component.
2 Filter pass band is Fc x 0.65 and stop band is Fc x 10. The sinc(x) effect is not included. Cutoff frequency, pass band and stop band are nominal.
3 Recommended to use V source.
HF AWG
Specification Value
Sampling rate 8 ksps to 200 Msps
Resolution 16 bit
Pin counts 2 single-ended (one at a time) or 1 differential per source
unit.
For multisite BB/VHF plus analog source and measuring:
4 source units per module, 4-parallel test
Waveform memory 31.7 M per source unit
V93000 SOC MBAV8+ Analog Card
Specification Value
Max. sinewave frequency 80 MHz @ 200 Msps
Output range 2.5 Vpp @ 50 Ω to GND w/o sinc(x) effect
Attenuation 0 to 70dB, 0.01 resolution
DC offset range ±1.25 V @ 50 Ω to GND, 15bit resolution
Independent DC offset
adjustment
±0.25V > 10kΩ load, 12bit resolution
Output level (AC+DC) -1.5 V < AC+DC < 1.5 V @ 50 Ω to GND
Output impedance 50 Ω nominal
Filter 1.5 MHz, 15 MHz, 80 MHz (Cutoff frequency is nominal) 2) Absolute DC accuracy ±0.4 % of setting ±8 mV ±0.2% of DC Offset @ > 10 kΩ load
THD (up to 5th harmonic) 50Ω load, 0dBm,
200Msps, w/o offset (characteristic data) -97 dBc @ 1 MHz, 1.5 MHz filter -80 dBc @ 10 MHz, 15 MHz filter -64 dBc @ 20MHz, 80MHz filter -42 dBc @ 50MHz, 80MHz filter
SFDR
50Ω load, 0dBm, 200Msps, w/o offset (characteristic data) 85 dBc @ 1 MHz, 1.5 MHz filter, 10MHz bw 81 dBc @ 10 MHz, 15 MHz filter, 50MHz bw 62 dBc @ 20 MHz, 80 MHz filter, 100MHz bw 41 dBc @ 50 MHz, 80 MHz filter, 250MHz bw
SNR
50Ω load, 0dBm, 200Msps, w/o offset (characteristic data) 70 dB @ 1 MHz, 1.5 MHz filter, 10MHz bw 65 dB @ 10 MHz, 15 MHz filter, 50 MHz bw 60 dB @ 20 MHz, 80 MHz filter, 100 MHz bw 55 dB @ 50 MHz, 80 MHz filter, 250 MHz bw
SINAD
50Ω load, 0dBm, 200Msps, w/o offset (characteristic data) 70 dBc @ 1 MHz, 1.5 MHz filter, 10MHz bw 65 dBc @ 10 MHz, 15 MHz filter, 50 MHz bw 60 dBc @ 20 MHz, 80 MHz filter, 100 MHz bw 41 dBc @ 50 MHz, 80 MHz filter, 250 MHz bw
Gain match between units in module (characteristic data) ±0.15 dB @ 1 MHz, 0 dBm, filter through ±0.2 dB @ 10 MHz, 0 dBm, filter through
Phase match between units in module (characteristic data) ±5 ns fixed skew @ filter through 3)
±100 ps skew uncertainty @ filter through
1 Fundamental signal at maximum sine wave frequency is 35 dBc away from aliasing component.
2 Filter pass band is Fc x 0.8 and stop band is Fc x 10. Cutoff frequency, pass band and stop band are nominal. The sinc(x) effect is not included.
3 Must meet trigger delay conditions
VHF AWG
Specification Value
Sampling rate 8 ksps to 500 Msps
Resolution 16 bit
Pin counts 4 single-ended (2 from unit 1 or unit 2, and each buffered
to 2 fan-out in unit 3 or unit 4 ) or 2 differential (1 from unit
1 or unit 2, and 1 fan-out from unit 3 or unit 4)
For single and multisite BB/VHF plus analog source and
measuring:
8 single-ended or 4 differential
Waveform memory 31.7 M per source unit
Max. sine wave
frequency
200 MHz @ 500 Msps
Output range 2.5 Vpp @ 50 Ω to GND w/o sinc(x) effect
V93000 SOC MBAV8+ Analog Card
Specification Value
Attenuation 0 to 70dB, 0.01 resolution
DC offset range -1.5 V to 2.5 V @ 50 Ω to GND, 15bit resolution
Independent DC offset
adjustment
±0.25V > 10kΩ load, 12bit resolution
Output level (AC+DC) -1.5 V < AC+DC < 2.5 V @ 50 Ω to GND
Output impedance 50 Ω nominal
Filter 58MHz, 200MHz (nominal cut off frequency)
Absolute DC accuracy ± 1 % o f setting ±15 mV w/o DC Offset @ > 10 kΩ load
±1.3% of setting ±35 mV w/ DC Offset @ > 10 kΩ load
THD (up to 5th harmonic) 50Ω load, 0dBm,
500Msps, w/o offset (characteristic data) -75 dBc @ 10 MHz, 58 MHz filter -65 dBc @ 45 MHz, 58 MHz filter -53 dBc @ 100 MHz, 200 MHz filter -42 dBc @ 200MHz, 200 MHz filter
SFDR
50Ω load, 0dBm, 500Msps, w/o offset (characteristic data) 75 dBc @ 10 MHz, 58 MHz filter, 100 MHz bw 65 dBc @ 45 MHz, 58 MHz filter, 250 MHz bw 42 dBc @ 100 MHz, 200 MHz filter, 500 MHz bw 42 dBc @ 200 MHz, 200 MHz filter, 500 MHz bw
SNR
50Ω load, 0dBm, 500Msps, w/o offset (characteristic data) 67 dB @ 10 MHz, 58 MHz filter, 100 MHz bw 59 dB @ 45 MHz, 58 MHz filter, 250 MHz bw 50 dB @ 100 MHz, 200 MHz filter, 500 MHz bw 50 dB @ 200 MHz, 200 MHz filter, 500 MHz bw
SINAD
50Ω load, 0dBm, 500Msps, w/o offset (characteristic data) 67 dB @ 10 MHz, 58 MHz filter, 100 MHz bw 58 dB @ 45 MHz, 58 MHz filter, 250 MHz bw 44 dB @ 100 MHz, 200 MHz filter, 500 MHz bw 42 dB @ 200 MHz, 200 MHz filter, 500 MHz bw
Gain match between
units in module
(characteristic data)
±0.2 dB @ 10 MHz, 0 dBm, 200 MHz filter
Phase match between units in module (characteristic data) ±5ns @ 10MHz, 200 MHz filter
±7.5ns @10MHz, 200 MHz filter (low phase noise mode) 4)
±100 ps skew uncertainty @ 200 MHz filter
1 Fundamental signal at maximum sine wave frequency is 35 dBc away from aliasing component.
2 Filter pass band is Fc x 0.8 and stop band is Fc x 2. the sinc(x) effect is not included. Cut off frequency, pass band and stop band are nominal.
3 The buffered output of the VHF AWG can only be used for multi-site setups with identical pin assignments and settings for the respective DUTs.
4 Must meet trigger delay condition. Details are in the manual.
V source
Specification Value
Pin counts 4 (one at a time) per source unit or measure unit
8 units in module (4 source and 4 measure or 8 measure)
Voltage force range ±3.5 V @ ≥ 10 kΩ load to GND
±3.5 V * R L/(R L+52) @ < 10 kΩ load to GND
Resolution 0.1 mV
Absolute DC accuracy ±0.1 % of setting ±5 mV @ ≥ 10 kΩ load to GND 1)
Relative accuracy
(characteristic data)
2 LSB @ 16 bit resolution
Output current range ±3 mA
V93000 SOC MBAV8+ Analog Card
1 Users need to enter the load resistance with which the software applies voltage correction into the GUI. The accuracy displayed here is obtained after calibration. If the entered load resistance differs from "true" value by x%, an additional error of x/ (1+RL/RO) % occurs, where RL and RO are the true load resistance and the output impedance, respectively. The nominal value of RO is 5
2 Ω.
PMU
Specification Value
Pin counts 4 (one at a time) per source unit or measure unit
8 units per card (4 source and 4 measure or 8 measure)
Voltage force and measurement
?Range -2.0 V to +3.5 V
?Resolution 0.1 mV
?Force accuracy ±0.1 % of setting ±5 mV ±(Ia × 60) 1)
?Measurement
accuracy
±0.1 % of reading ±5 mV ±(Ia × 15) 2)
Current force and measurement
?Range ±3 mA
?Resolution 0.1 μA
?Force accuracy ±0.1% of setting ±5 μA ±(Va × 2 μA/V) 3)
?Measurement
accuracy
±0.1% of reading ±5 μA
High-resolution current measurement
?Range HR-PMU
?Resolution 1 nA
?Accuracy ±0.1% of reading +270 nA, -180 nA 4)
1The voltage force amplifier has nominally 60 Ω serial impedance. It makes a voltage error ratio to Ia (Ia is the actual curre nt).
2The voltage measurement amplifier has nominally 15 Ω serial impedance. It makes a voltage error ratio to Ia (Ia is the actual current).
3 The current force has an error proportional to Va, the actual voltage. The scale is 2 μA/V at maximum, that is,Va*2μA/V is added to the current. accuracy.
4 The high-resolution measurement mode is implemented digitally via FPGA and supported by SmarTest 6.1.0 or later.
HP-PMU multiplex
Specification Value
Pin counts 32 to 1 multiplexed (one at a time) in a module
Voltage force and measurement
?Range ±4 V 1)
?Resolution 250 μV
?Absolute DC
accuracy
±10 mV - (Ia * R) 2)
Current force and measurement
?Range ± 200 mA 3)± 5 mA ± 200 μA ± 5 μA
?Resolution n/a 250 nA 6nA 250 pA
?Absolute DC accuracy n/a ± 10 μA ±
0.1% of
reading or
setting
± 200 nA ±
0.1% of
reading or
setting
± 10 nA ±
0.1% of
reading or
setting
1 Output voltage is limited to 4 Vp-p by protection diodes.
2la is the actual current, R is the wiring resistance of ≤ 12 Ω.
3 The 200 mA range is not supported, since it exceeds the maximum allowable current of the MBAV8+ switch circuitry. Related information
IQ Core Function of HF AWG
V93000 SOC MBAV8+ Analog Card MBAV8+ IQ Core Function of VHF AWG
V93000 SOC MBAV8+ Analog Card
Measure units (E9732B, E9733B)
Selectable function: either LF Digitizer, VHF Digitizer, V source, PMU, or HP-PMU
LF digitizer
Specification Value
Sampling rate 32 ksps to 200 ksps
Resolution 24 bit
Bandwidth @ -3 dB
(characteristic data)
50 kHz
Pin counts 4 single-ended (2 at a time) or 2 differential (2 at a
time) per measure unit. 2 digitizer cores per
measure unit
For multisite BB/VHF analog source and
measurement:
4 measure units in module, 8-parallel test
For multisite BB/VHF analog measurement:
8 measure units in module, 16-parallel test
Waveform capture memory 7 M samples per measure unit (without averaging or oversampling)
Input range ±3 V, ±1 V, ±0.2 V
DC offset range 1)±3 V (±3 V input range)
±2 V (±1 V input range)
±1.5 V (±0.2 V input range) Input level (AC+DC) 1)-3 V to +4 V (±3 V input range)
±2 V (±1 V input range)
±1.5 V (±0.2 V input range)
Input impedance (nominal value) > 1 MΩ (single-ended)
> 2 MΩ (differential center GND)
Filter 50 kHz (fixed anti-aliasing analog filter, nominal
value)
Digital filters: 6 kHz, 30 kHz
Absolute DC accuracy
(characteristic data)
±0.5% of reading ±10mV
THD (up to 5th harmonics) (characteristic data) -110 dBc @ 1 kHz, -1dBFS, without offset, 192 ksps, ±3 V (or ±1 V) input range 2)
-90 dBc @ 20 kHz, -1dBFS, without offset, 192 ksps 2)
SNR (characteristic data) 125 dB @ 1 kHz, differential, EIAJ A-weighted, without offset, 192 ksps 2) 3)
1 An audio digitizer usually deals with signals that are free of DC-components (AC-coupled). Therefore, for the best performance and consistent operation of the LF-digitizers, it is required to use the smallest possible range depending on the peak-peak voltage of your signal and to compensate any DC-component using an offset voltage in the analog setup. The DC offset should always be set at the expected mid point of the signal under test (Vmax-((Vmax-Vmin)/2))) for optimized dynamic range performance. If the DC offset function is not used, the common mode range of the LF digitizer ADC requires transitions to occur within ±250mV in the ±1V range, scaling accordingly to other input ranges, to ensure consistent operation. For example, a signal of amplitude 100mVpp centered around a DC component of 700mV may be incorrectly captured when the ±1V range is selected. The best solution is to program the DC offset in the analog set up to 700mV and use the ±0.2V range.
2 Initial discard is 4096 points.
3 SNR is measured over a bandwidth of 20kHz with a -60 dB signal and then referred to the full-scale signal.
This measurement technique ensures that distortion components do not affect the noise measurement and is proposed by the Audio Engineering Society, AES17-199.
V93000 SOC MBAV8+ Analog Card
VHF digitizer
Specification Value
Sampling rate 1 Msps to 180 Msps
Resolution 16 bit
Bandwidth @ -3 dB
(characteristic data)
300 MHz using under sampling
Pin counts 4 single-ended (1 at a time) or 2 differentials (1 at a time)
per measure unit.
For multisite BB/VHF analog source and measurement:
4 measure units in module, 4-parallel test
For multisite BB/VHF analog measurement:
8 measure units in module, 8-parallel test
Waveform capture memory 14 M samples per measure unit (no averaging, no oversampling)
Input range ±2 V, ±1 V, ±0.5 V, ±0.25 V, ±0.125 V
DC offset range ±3 V (for ±2 V and ±1 V input ranges)
±2.8 V (for ±0.5 V, ±0.25 V, and ±0.125 V input ranges) 1) Input level (AC+DC) ±3 V (for ±2 V and ±1 V input ranges)
±2.8 V (for ±0.5 V, ±0.25 V, and ±0.125 V input ranges)
Within input range for 37.5 Ω single-ended or 75 Ω
differential
Input impedance (nominal value) Single-ended: 1MΩ, 10 kΩ, 50 Ω, 37.5 ΩDifferential: 100 Ω
Differential center GND: 2MΩ, 20kΩ, 100 Ω, 75 Ω
Filter 300 MHz, 15 MHz, 50 MHz and 105 MHz
(Cut-off frequency is nominal)
Digital filter: 6.1 MHz, 13 MHz
Real-time digital filter: 9.4 kHz to 4.58 MHz
Absolute DC accuracy ±0.5% of reading ±0.3% of offset ±5 mV @ 10 kΩ input
impedance
THD (up to 5th harmonics)
±0.5V range, 0dB FS signal
50 Ω input impedance (characteristic data) -88 dBc @ 1 MHz (15 MHz filter, 100 Msps) -75 dBc @ 10 MHz (50 MHz filter, 100 Msps) -68 dBc @ 50 MHz (300 MHz filter, 180 Msps) -50 dBc @ 85 MHz (300 MHz filter, 180 Msps)
SFDR
±0.5V range, 0dB FS signal
50 Ω input impedance (characteristic data) 85 dBc @ 1 MHz (15 MHz filter, 15 MHz bw, 100 Msps)
75 dBc @ 10 MHz (50 MHz filter, 50 MHz bw, 100 Msps) 67 dBc @ 50 MHz (300 MHz filter, 300 MHz bw, 180 Msps)
51 dBc @ 85 MHz (300 MHz filter, 300 MHz bw, 180 Msps)
42 dBc @ 250 MHz (300 MHz filter, 300 MHz bw, 180 Msps)
SNR
±0.5V range, 0dB FS signal
50 Ω input impedance (characteristic data) 66 dB @ 1 MHz (15 MHz filter, 15 MHz bw, 100 Msps) 62 dB @ 10MHz (50 MHz filter, 50 MHz bw, 100 Msps) 50 dB @ 50 MHz (300 MHz filter, 300 MHz bw, 180 Msps)
50 dB @ 85 MHz (300 MHz filter, 300 MHz bw, 180 Msps)
45 dB @ 250 MHz (300 MHz filter, 300 MHz bw, 180 Msps)
SINAD
±0.5V range, 0dB FS signal
50 Ω input impedance (characteristic data) 66 dB @ 1 MHz (15 MHz filter, 15 MHz bw, 100 Msps) 62 dB @ 10 MHz (50 MHz filter, 50 MHz bw, 100 Msps) 50 dB @ 50 MHz (300 MHz filter, 300 MHz bw, 180 Msps)
47 dB @ 85 MHz (300 MHz filter, 300 MHz bw, 180 Msps)
Gain match between
units in module
±0.1 dB @ 1 MHz, 1 Vpp 2)
V93000 SOC MBAV8+ Analog Card
Specification Value
(characteristic data) ±0.15 dB @ 10 MHz, 1 Vpp 2)
Phase match between units in module (characteristic data) ±5 ns fixed skew @ 100 kHz, 1 MHz, or 10 MHz 2) 3)
±100 ps skew uncertainty @ 100 kHz, 1 MHz, or 10 MHz 2)
1 No offset for single-ended 37.5 Ω input impedance
2 Gain/phase match is measured by single-ended sine signal at ±0.5 V input range, through filter and without offset. The object channels for the measurement are units 1 and 3, units 2 and 4, units 5 and 7, and units 6 and 8.
3 Must meet trigger delay condition. Details are in the manual.
V source
See Source units (E9732B) (page 8).
PMU
See Source units (E9732B) (page 8).
HP-PMU multiplex
See Source units (E9732B) (page 8).
Related information
MBAV8+ RTSPU in IF Core Function of VHF Digitizer
IQ Core Function of MBAV8+ VHF Digitizer
V93000 SOC MBAV8+ Analog Card
Baseband IQ calibration (E9732B, E9733B)
Supported products
E9728A as MBAV8+ measurement IQ calibration board
E9722A, E9722B: MBAV8 (4 source, 4 measure units)
E9732B: MBAV8+ (4 source, 4 measure units)
E9728B MBAV8+ source IQ calibration board
E9722A, E9722B: MBAV8 (4 source, 4 measure units)
E9732B: MBAV8+ (4 source, 4 measure units)
E9728A as multicore analog diagnostics and calibration board
E9714A: AV8 (4 source, 4 measure units)
E9715A: AV8 (8 measure units)
E9722A, E9722B: MBAV8 (4 source, 4 measure units)
E9723A, E9723B: MBAV8 (8 measure units)
E9726A, E9726B: 6GQS
E9732B: MBAV8+ (4 source, 4 measure units)
E9733B: MBAV8+ (8 measure units)
I/Q gain and phase balance
HF AWG and VHF digitizer
Specification 1)Value
Gain balance between units in module (characteristic data) HF AWG: 0.04 dB ≤ 20 MHz VHF digitizer: 0.04 dB ≤ 20 MHz
Phase balance between units in module (characteristic data) HF AWG: 2)
? 1.0 degree @ 20 MHz ?0.4 degree @ 5 MHz VHF digitizer: 3)
?0.7 degree @ 20 MHz ?0.3 degree @ 5 MHz
1 Guaranteed under these conditions:
- User load board trace length mismatch < 10 mm
- Tolerance of load resistance on the load board is less than ± 0.1%
- Liquid temperature change is under ± 1 °C
- Calibrated within a 3-month period using a specific analog setup
- Specify the guaranteed value under a condition of MBAV8+ self compensation with E9728A and E9728B, this doesn't guarantee traceable to standard
2 200 MSa/s, input signal 0-30 dB of full scale sampled more than 1024 points
3 100 MSa/s, input signal 0-30 dB of full scale sampled more than 102
4 points
Related information
MBAV8+ overview (page 6)
Source units (E9732B) (page 8)
Measuring units (E9732B, E9733B) (page 13)