Keysight Technologies Device Current Waveform Analyzer CX3322A 2 Channel CX3324A 4 Channel Data Sheet The world’s first instrument that enables every electronics engineer to precisely visualize never before seen wideband low-level current waveforms. Product Overview When evaluating or debugging low power devices, most test engineers use a similar set of instruments: power supplies, multimeters, oscilloscopes, spectrum analyzers, network analyzers, function generators, etc. Measurements made by these instruments are mostly based on “voltage waveform measurements”. However, a recent increase in demand for power reduction has resulted in an increase in current waveform measurement opportunities to precisely estimate low-level current and power consumption. In order to reduce the power consumption of your product, you need to know when, where and precisely how much current is consumed. The CX3300 series of Device Current Waveform Analyzers can visualize wideband low-level, previously unmeasurable or undetectable, current waveforms.. The main frame has either 2 or 4 channels to receive signals from the Current Sensors and digitize them by a maximum of 1 GSa/s and 14-bit or 16-bit wide dynamic range. There are three types of Current Sensors that can detect a wide range of dynamic currents from 100 pA level up to 10 A, with a maximum of 200 MHz bandwidth. There are six types of detachable Sensor Heads designed to provide an appropriate choice of connection to the DUT (Device under Test) and they are available for two of the three types of Current Sensors. Captured waveforms are displayed on the WGXA 14.1” LCD with multi touch screen. The CX3300 series can also measure dynamic voltage waveforms by using a Passive Probe Interface Adapter connected to a measurement channel, so that power consumption waveform can also be calculated and displayed. The CX3300 series also features useful analysis capabilities such as an Automatic Power and Current Profiler, a Power Measurement Wizard, FFT Analyzer and Statistical Analysis functions, which accelerate the analysis of the measurement data without the need to use external analysis utilities. With this new and powerful analyzer, you can achieve critical mission on power and current consumption reductions by precisely measuring, previously unmeasurable or undetectable, wideband low-level current waveforms. 03 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Greater demand for transient current measurements Researchers working on advanced semiconductor or non-volatile memory devices such as ReRAM and PRAM are struggling to observe the behavior of newly developed materials when a short voltage pulse (< 100 ns) is applied. Since the transient current ranges from sub-nA to over mA, it is very difficult to clearly detect entire transient current behavior. Engineers working on battery-powered device development are under greater pressure to obtain a reduction in power and current consumption. As the recent technology trend in low power IoT, M2M, wearables, etc. has significantly accelerated this pressure, there is a need to reduce more unused power from existing devices. As a result, engineers are forced to look into even component level dynamic current consumption, which is always very difficult to measure especially for low-power devices used in IoT enabled products. What makes wideband low-level current waveform measurements so difficult? Current Greater demand for power and current reduction 1. Limited dynamic range For example, most of the battery-powered devices have low power status such as “sleep state” or “standby state” that consume very little supply current such as less than 1 μA, while the “active state” usually requires more than 10 mA current. It is difficult to measure such a wide dynamic range of currents with a single measurement. Time Figure 1. Current waveform measurements: limited dynamic range, large measurement noise and limited bandwidth 2. Large measurement noise 3. Limited bandwidth Low-level current waveform measurements with a certain level of resolution need a tradeoff with bandwidth, otherwise wideband measurements may degrade the resolution. Using a multimeter or an ammeter is popular for high resolution measurements, but not appropriate for wideband current measurements due to the lesser bandwidth. It is also difficult to measure multiple ranges with the same wide bandwidth when you use a custom measurement instrument built using standard rather than specialist parts. 4. Multiple instruments required A multimeter is commonly used to measure the averaged “sleep state” current, while the “active state” current can be captured using an oscilloscope. The total power and current consumptions must be manually estimated from these results, but the data is not always reliable and it can be time consuming to validate it. As shown in Figure 2, engineers and researchers need a wideband low-level current waveform measurement solution with a single instrument, simultaneously meeting multiple key measurement requirements. Wide bandwidth High speed sampling Current Clamp-on type current probes are widely used, but measuring low-level current less than 1 mA is always difficult due to the large noise floor. Using a shunt resistor and an oscilloscope is very useful, but the minimum measurable current is limited due to the noise floor and the voltage drop across the resistor. Time Low noise floor Wide dynamic range Figure 2. Expected key requirements for wideband low-level current waveform measurements. 04 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet The new Device Current Waveform Analyzers precisely visualize never before seen wideband low-level current waveforms The 14 and 16-bit wide dynamic range enables you to visualize current waveforms, including sleep and active states, with just a single measurement. A current measurement always requires a wide dynamic range, especially for the low power device applications consisting of sleep and active states. The CX3300’s dedicated current sensors enable up to 5-decade dynamic range measurements at one time and to easily measure the power and current profiles. 40 mA Zoom in this area 10 µA Figure 3. Wide dynamic range measurement example: 40 mA and 10 μA current waveform measurements at the same time. You can measure low-level current waveform from 100 pA level using the low noise current sensing technology. The high-frequency noise suppressed sensing technology enables you to measure current waveform from 100 pA level. The CX3300’s superior low noise capability helps you achieve results that have never previously been obtainable with existing instruments. 200 pA Figure 4. Very-low current measurement example: 200 pA peak-to-peak current waveform. 05 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Figure 5. The CX3300’s dedicated current sensors greatly suppress high frequency current noise without losing their low-burden current sensing capability. The dual channel sensor enables almost 5-decade dynamic range using the simultaneous dual range view technology. DUT DUT Figure 6a. SMA cable Figure 6b. Test lead Figures 6a and 6b. A wide variety of sensor head adapters provides the best connection interface for your DUT (device under test). Figure 7. The CX3300 series can also measure and view voltage waveforms using a passive probe, so that you can view the dynamic power waveforms as well as current waveforms. 06 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet You will never overlook any transient current and can improve your debug efficiency by 1 GSa/s and up to 200 MHz bandwidth. You might not be aware of a very sharp current pulse due to a lower measurement bandwidth and/or slow sampling rate. The CX3300’s high frequency measurement capabilities capture never seen before fast transient current waveforms and clearly show them on the display. As a result, you can not only improve the debug efficiency, but can select the right components by knowing the peak current. Zoom in this area Figure 8. You can capture fast transient current waveforms and show them on the display. 20 ns Figure 9. You can easily measure transient current with less than 100 ns pulse width, which can help you evaluate and analyze two terminal devices such as PRAM, ReRAM, MRAM, etc. Zoom in this area 10 MSa/s 256 Mpts/ch Figure 10. Up to 256 Mpts/ ch memory depth and the fast acquisition rate allow you to capture long-term behaviors to find, for example, unexpected current peaks. Using the “Anywhere” zooming function (described in a later section) allows you to clearly identify any areas of interest on the measured waveform. 07 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet All the mainframes offer 14-bit or 16-bit high resolution Simply pressing the “High Reso” button allows you to change the resolution from a 14-bit (high speed mode) to a 16-bit (high resolution mode) and observe clearer waveforms by the lower noise floor at lower frequencies. Figure 11. High resolution button for 16-bit resolution In addition to the intuitive measurement user interface, you can quickly make a wide range of analyses with a single benchtop size instrument. Current waveform measurements can be immediately analyzed on the same instrument using the CX3300’s powerful analysis capabilities. As these analyses can be applied to current, voltage and power waveforms, you can gain new insights into your DUT. Measured waveform Spectrum analysis CCDF Figure 12. Analysis capabilities such as Spectrum Analysis or Statistical Analysis are available for all the mainframe models. The CX1102A Dual Channel Current Sensor enables simultaneous measurements under two different measurement ranges. For example, the primary channel is set to a 200 mA range, while the secondary channel is to a 2 mA range (primary channel range is 50 or 100 times of secondary channel). This current sensor is very useful for low-power applications that periodically operate in both sleep/standby state and active state. Standby Active Standby x 100 x 100 (Over range) x 100 Figure 13. Wide dynamic range measurement by the CX1102A Dual Channel Current Sensor High input impedance digital channel minimizes load current in the probe (CX3324A option) The CX1152A Digital Channel is useful when you need digital triggers to measure current synchronized with digital signals such as controller’s I/O or data bus up to 8 channels. Unlike conventional digital probes, each probe for the CX1152A has large 10 MΩ input resistance, which enables you to make accurate low power measurements by minimizing the load current. Current waveform (14a) Digital signals (14b) Figure 14a and 14b. Current waveform measurement and connection example using the Digital Channel Current (DC + AC) Dual Channel Current Sensor achieves a 100 dB dynamic range to visualize low-power device operations Current (DC + AC) 08 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Offset Time Time Offset current cancelled Figure 15. The CX1103A Low Side Current Sensor employs offset adjustable ultra-wideband transimpedance technology, which can cancel the large DC current offset and extract only the required dynamic current. This feature is quite useful to measure low-level dynamic sensor current signals on a larger DC current. 09 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Software is also customized to measure and analyze wideband low-level current waveforms Horizontal zoom button An easy-to-use “anywhere” zoom function allows you to, at any time, zoom in anywhere on the waveform Following a few simple steps on the front panel or clicking an icon in the waveform window instantly enables the magnifying lens function, which allows you to zoom in on any areas of interest including both vertical and horizontal scaling independent of the main waveform. As a result, you can fully utilize the CX3300’s 14-bit and 16-bit high resolution. Vertical zoom button You can move this area on the waveform Figure 18. Easy-to-access zoom buttons for both horizontal and vertical Zoomed area Figure 16. The “Anywhere” Zoom works like a magnifying lens on the waveform. The CX3300 always tells you how much bandwidth each channel is measuring. When you measure a wide range of dynamic currents, you need to consider the measurement bandwidth due to the mainframe, sensors, filters and acquisition rate. It is not easy to manually calculate the measurement bandwidth, but the CX3300 series automatically calculates these parameters and indicates real-time effective measurement bandwidth in each channel. You therefore don’t have to be concerned about the measurement bandwidth when using the CX3300 series. Bandwidth (channel 1) Bandwidth (channel 2) Spectrum analysis (FFT) (19a) Histogram (19b) Figures 19a and 19b. Analysis capabilities are important when debugging your DUT. The CX3300 series features essential analysis tools that help you improve your development efficiency. Figure 17. The effective measurement bandwidth is always shown in the mini dialog boxes. 10 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Automatic Power and Current Profiler can eliminate time-consuming power and current profile analysis. Analysis of power or current profile is essential in order to know how much current is consumed at a certain event or status, but it is time-consuming process. This profiler automatically draws lines in the time scale by the vertical level difference and instantly calculates key parameters such as average current, max./min. current, accumulated charge, etc. for each segment in the adjacent table. You can also manually adjust the segment according to your measured profile. (20a) (20b) Figures 20a and 20b. Automatic Power and Current Profiler (20a) and the report table (20b) Executing user calibration before a measurement ensures that you can make full use of the CX3300’s superior performance. For low-level current measurements it is important to set “zero current” level before the measurement. The CX3300 series mainframe features easy-to-use calibration capability including mainframe and a current sensor connected. It can also calibrate with a passive probe for more accurate dynamic power measurements. An upgradable mainframe allows you to purchase the current most affordable CX3300 series without sacrificing future measurement needs. The CX3300 mainframe has the following options, allowing you to choose the best specifications according to your budget and application needs. –– A two-channel model (CX3322A) and a four-channel model (CX3324A) 1 –– Three maximum bandwidth options: 50 MHz, 100 MHz and 200 MHz –– Three memory depth options per channel: 16 Mpts, 64 Mpts and 256 Mpts These upgrade license products are available for you to easily and quickly enhance the bandwidth and the memory depth of the mainframe that you have previously purchased. Please see the “CX3300 Series Configuration Guide” in detail. 1. Number of channels is not upgradable. Figure 21. Aux Out is used in the calibration procedure for each channel by connecting the sensors and probe adapter. As the connection cable is included in the mainframe, you can immediately start the User Calibration. 11 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet CX3300 Series Standard Features and Key Accessories The mainframe enables both wide bandwidth and low noise current measurements The CX3300 series never compromises in terms of wide bandwidth or low noise current measurements, and clearly visualizes low-level current waveforms on its 14.1 inch wide screen. Both an advanced and a familiar graphical user interface with a user friendly touch screen, allow you to easily undertake measurements and obtain accurate data for analysis from first use. It also provides common interface connectivity to meet various customer needs. Navigation keys Single acquisition keys 14.1” display with touch panel Multi-purpose keys Horizontal setting Trigger setting Vertical setting Aux Out terminal Touch panel switch Analog input channels (1 to 4 for CX3324A, 1 to 2 for CX3322A)) VGA video out and DisplayPort SSD slot USB 2.0, USB 3.0 and LAN ports Figure 22. CX3324A front, rear and side views Trigger in/out 10 MHz reference in/out Digital channels (CX3324A only) Security cable slot 12 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Dedicated current sensors and accessories to meet the wide variety of measurement needs for your applications Providing a wide application coverage without compromising both wide bandwidth and low noise requirements is quite challenging. Accessories for the CX3300 series are dedicated to wideband low-level current waveform measurements and help you meet various application needs. The CX1101A covers wide measurement ranges from 40 nA to 10 A and operates under higher common mode voltage up to ±40 V. The CX1102A enables the equivalent of a 100 dB (5-decade) dynamic range at a single measurement, which is useful when you measure a current waveform for both sleep/standby and active states at one time. The CX1103A can be used for what is known as low side current sensing and features the series minimum measurable current (150 pA at 20 MHz bandwidth) and the series maximum bandwidth (200 MHz sensor alone). The CX3300 series also offers voltage measurement capability by using a Passive Probe Interface Adapter (CX1151A) and a Digital Channel (CX1152A) up to 8 channels. See the “CX3300 Series Selection Guide” to find out which accessory can be used for your applications. Figure 23. CX1101A Single Channel Current Sensor (Furnished CX1203A) Figure 24. CX1102A Dual Channel Current Sensor (Furnished CX1203A) Figure 25. CX1103A Low Side Current Sensor Figure 26. CX1151A Passive Probe Interface Adapter Figure 27. CX1152A 10 MΩ Input Digital Channel Figure 28. Small series resistance Despite the wide dynamic range measurement capability, the minimum equivalent series resistance of CX1101A and CX1102A current sensors is minimized to 410 mΩ typ. for wide measurement ranges. As a result, you don’t have to worry about a large voltage drop (burden voltage) across the internal resistor (see Figure 28). 13 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet You can find the best connection interface for your DUT from the six sensor head adapters that can be easily and safely attached to and detached from the current sensors (CX1101A and CX1102A only. Not available for CX1103A). The SMA connector type adapters enable wideband measurements, while twisted pair and test lead adapters are quite useful for quick current waveform measurements that do not necessarily need a wide bandwidth. CX1201A CX1202A CX1204A CX1205A CX1203A CX1206A (for up to 10 A) Figure 29. CX120XA Sensor head adaptors Attaching a sensor head to a current sensor is quite simple, requiring no extra effort. Connecting a sensor to a mainframe channel is also a simple process, by firmly screwing in the adapter. All these connections are hot swappable. (30a) (30b) Figure 30a and 30b. Attaching a sensor head to a current sensor (31a) (31b) Figure 31a and 31b. Connecting a sensor to a mainframe channel Figure 32. CX1206A and CX1101A. Even when you evaluate low power devices, you may occasionally need to measure higher current at more than 1 A. The CX1206A sensor head with expander enables CX1101A current sensor to measure from 3 mA to 10 A current waveforms based on the ESL (Effective Series Inductance) reduced shunt resistor technology. 14 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet The CX3300 series offers you the complete measurement environment for visualizing wideband and low-level, previously unmeasurable or undetectable, current waveforms. The latest battery powered or energy harvested devices must further reduce power/ current consumptions. For repeatable and quantitative power reductions, it is necessary to be able to visualize previously unmeasurable or undetectable wideband low-level current waveforms. By adding the CX3300 series to our instrument lineup, Keysight has provided a complete solution for low power device measurements that covers both static/dynamic and voltage/current. Figure 33. The CX3300 series can be an additional powerful instrument on your benchtop. Table 1. CX3300 series mainframe key characteristics Input channel Analog bandwidth options Max. sample rate Dynamic range (ADC bits) Memory depth options Digital channel User installed upgrade CX3322A 2 50 MHz, 100 MHz, 200 MHz 1 GSa/s 14 (high speed mode) and 16 (high resolution mode) 16 Mpts, 64 Mpts, 256 Mpts No Bandwidth, Memory depth CX3324A 4 50 MHz, 100 MHz, 200 MHz 1 GSa/s 14 (high speed mode) and 16 (high resolution mode) 16 Mpts, 64 Mpts, 256 Mpts Yes Bandwidth, Memory depth Models Table 2. Current sensors key characteristics Models Description CX1101A Current Sensor, Single Channel CX1102A CX1103A 3 RMS noise @ 20 MHz NBW Max. measurable current DC measurement accuracy (with mainframe) 1 Max. bandwidth (standalone) 40 nA 10 A 2 ±(0.6 % + 0.3 %) 100 MHz Current Sensor, Dual Channel 40 nA 1A ±(0.6 % + 0.3 %) 100 MHz Current Sensor, Low Side 150 pA 20 mA ±(0.6 % + 0.3 %) 200 MHz 1. 24 hrs after executing the user calibration. At 20 mA range. 2. With CX1206A sensor head 3. CX1102A occupies two input channels of mainframe 15 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Current Sensor measurement range Table 3. CX1101A Current Sensor, Single Channel, ± 40 V, 100 MHz, 40 nA - 1 A Channel Range RMS Noise 1 Maximum Bandwidth (-3 dB) Input Resistance (Typical) 10 A 10 mA 3 MHz 2 15 mΩ 100 MHz 410 mΩ 25 kHz 50 Ω 1A 2 mA 200 mA 0.2 mA 20 mA 20 µA 2 mA 3 µA 200 µA 400 nA 20 µA 40 nA Maximum Common Mode Voltage ±40 V Table 4. CX1102A Current Sensor, Dual Channel, ± 12 V, 100 MHz, 40 nA - 1 A Primary channel Secondary channel Maximum Bandwidth (-3 dB) Input Resistance (Typical) 100 MHz 410 mΩ 500 kHz 50 Ω Range RMS Noise 1 Range RMS Noise 1 1A 2 mA 20 mA 20 uA 200 mA 0.2 mA 2 mA 3 uA 20 mA 20 uA 200 uA 500 nA 2 mA 2 uA 20 uA 200 nA 20 mA 3 8 uA 3 200 uA 3 400 nA 3 90 kHz 3 2 mA 3 1 uA 3 20 uA 3 40 nA 3 25 kHz 3 Maximum Common Mode Voltage 50 Ω 3 Table 5. CX1103A Current Sensor, Low Side, 200 MHz, 100 pA - 20 mA Range Channel RMS Noise 1 Maximum Bandwidth (-3 dB) 20 mA 5 uA 200 MHz 2 mA 1.5 uA 75 MHz 200 uA 150 nA 9 MHz 20 uA 25 nA 2.5 MHz 2 uA 1.5 nA 250 kHz 200 nA 150 pA 100 kHz 1. Noise measurement bandwidth = 20 MHz 2. At –4 dB. 3. Built-in low pass filter mode is ON. Maximum Offset Current Input Resistance (Typical) Maximum Common Mode Voltage ±20 mA 50 Ω (50 Ω Input ON) 4Ω (50 Ω input OFF) ±1 V (50 Ω Input ON) ±0.5 V (50 Ω Input OFF) ±200 uA ±20 uA ±12 V 16 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 6. CX3300 series ordering information Category Mainframe model Sensor Model Model number Description CX3322A Device Current Waveform Analyzer, 1 GSa/s, 14/16-bit, 2 Channel CX3322A-B05 Bandwidth – 50 MHz CX3322A-B10 Bandwidth – 100 MHz CX3322A-B20 Bandwidth – 200 MHz CX3322A-016 Memory – 16 Mpts/ch CX3322A-064 Memory – 64 Mpts/ch CX3322A-256 Memory – 256 Mpts/ch CX3300A-KBD Mini-Keyboard and Optical Mouse CX3322A-A6J ANZI Z540-1-1994 Calibration CX3322A-UK6 Commercial Calibration Certificate with Test Data CX3324A Device Current Waveform Analyzer, 1 GSa/s, 14/16-bit, 4 Channel CX3324A-B05 Bandwidth – 50 MHz CX3324A-B10 Bandwidth – 100 MHz CX3324A-B20 Bandwidth – 200 MHz CX3324A-016 Memory – 16 Mpts/ch CX3324A-064 Memory – 64 Mpts/ch CX3324A-256 Memory – 256 Mpts/ch CX3300A-KBD Mini-Keyboard and Optical Mouse CX3324A-A6J ANZI Z540-1-1994 Calibration CX3324A-UK6 Commercial Calibration Certificate with Test Data CX1101A Current Sensor, Single Channel, ± 40 V, 100 MHz, 40 nA – 1 A CX1101A-A6J ANZI Z540-1-1994 Calibration CX1101A-UK6 Commercial Calibration Certificate with Test Data CX1102A Current Sensor, Dual Channel, ± 12 V, 100 MHz, 40 nA - 1 A CX1102A-A6J ANZI Z540-1-1994 Calibration CX1102A-UK6 Commercial Calibration Certificate with Test Data CX1103A Current Sensor, Low Side, 200 MHz, 100 pA - 20 mA CX1103A-A6J ANZI Z540-1-1994 Calibration CX1103A-UK6 Commercial Calibration Certificate with Test Data 17 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 6. CX3300 series ordering information Category Adapter 1 Digital channel Sensor Accessory Upgrade product Other Accessories Model number Description (Preliminary) CX1151A Passive Probe Interface Adapter CX1151A-A6J ANZI Z540-1-1994 Calibration CX1151A-UK6 Commercial Calibration Certificate with Test Data CX1152A Digital Channel, 10 Mohm Input, ± 25 V, 8 Channel CX1201A Sensor Head, Coaxial Through CX1202A Sensor Head, Coaxial Through with V Monitor CX1203A 2 Sensor Head, Coaxial Termination CX1204A Sensor Head, Twisted Pair Adapter CX1205A Sensor Head, Test Lead Adapter CX1206A Sensor Head, High Current Adapter with Expander, 10 A CX1601U Bandwidth Upgrade from 50 MHz to 100 MHz for CX3322A CX1602U Bandwidth Upgrade from 50 MHz to 200 MHz for CX3322A CX1603U Bandwidth Upgrade from 100 MHz to 200 MHz for CX3322A CX1611U Bandwidth Upgrade from 50 MHz to 100 MHz for CX3324A CX1612U Bandwidth Upgrade from 50 MHz to 200 MHz for CX3324A CX1613U Bandwidth Upgrade from 100 MHz to 200 MHz for CX3324A CX1651U Memory Upgrade from 16 Mpts to 64 Mpts for CX3322A CX1652U Memory Upgrade from 16 Mpts to 256 Mpts for CX3322A CX1653U Memory Upgrade from 64 Mpts to 256 Mpts for CX3322A CX1661U Memory Upgrade from 16 Mpts to 64 Mpts for CX3324A CX1662U Memory Upgrade from 16 Mpts to 256 Mpts for CX3324A CX1663U Memory Upgrade from 64 Mpts to 256 Mpts for CX3324A CX1903A Rack Mount Kit for CX3300 Series CX1905A 3 Attachment for 3D Probe Positioner 1. Recommended passive probe: Keysight N2843A 2. CX1203A is furnished for CX1101A and CX1102A. 3. Recommended 3D positioner: Keysight N2787A 18 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet CX3300 Series performance characteristics Warranted specifications are denoted by **, and all others are supplemental characteristics. Specifications are valid after a 30-minute warm-up and 23 ± 5 °C About the measurement accuracy Measurement accuracy can be affected by RF electro-magnetic field having the strengths greater than 3 V/m in the frequency range of 80 MHz to 2 GHz or 1 V/m in the frequency range of 2 GHz to 2.7 GHz. The extent of this effect depends upon how the instrument is positioned and shielded. Table 7. CX3300 series mainframe characteristics overview Analog bandwidth 50 MHz (Option B05), 100 MHz (Option B10), 200 MHz (Option B20) Number of analog channels Number of digital channels CX3322A 2 CX3324A 4 CX3322A N/A CX3324A 8 with CX1152A Vertical resolution 14-bit (High speed mode), 16-bit (High resolution mode) Maximum sampling rate 1 GHz full channel Memory depth per channel 16 Mpts (Option 016), 64 Mpts (Option 064), 256 Mpts (Option 256) Table 8. Vertical system - analog channels 1 Analog bandwidth (-3 dB) 14-bit resolution 50 MHz 100 MHz 16-bit resolution 14 MHz 14 MHz 200 MHz 14 MHz Input coupling DC Input impedance ** 50 Ω: ±3.5% Input range ±0.65 V nominal, ±2 V peak Vertical hardware resolution 14 bits or 16 bits DC measurement accuracy ** ± (0.7% of reading + 0.7% of range) 2 Channel-to-channel isolation RMS noise (± 0.5 V fix, full BW) TBD 14-bit resolution 120 μVrms 170 μVrms 250 μVrms 16-bit resolution 46 μVrms 46 μVrms 46 μVrms 1. Analog channels only work with CX1100 series of sensors and CX1151A adapter and do not allow to be used for other purposes. 2. ADC Offset user calibration required. 19 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 9. Horizontal system Main time base range 1 ns/div to 20 s/div Resolution 1 ns Modes Main Reference position Left, center, right Time scale accuracy 10 ppm Channel deskew Range = -100 ns to +100 ns Table 10. Acquisition - analog channels Maximum real time sample rate 1 Standard memory depth 14 bit resolution 1 GSa/s for each channel 16 bit resolution 75 MSa/s for each channel 16 Mpts per channel Option 016: 16 Mpts per channel Memory depth options Option 064: 64 Mpts per channel Option 256: 256 Mpts per channel Real time with average (Normal) Sampling modes Real time with discard Real time with peak detect sin (x) / x interpolation Filters Averaging 1 MHz, 2 MHz, 5 MHz, 10 MHz, 20 MHz, 50 MHz (Option B10, B20), 100 MHz (Option B20) 2 1. 14-bit and 16-bit can be toggled by pressing “High Reso” button. All channels are set to the same resolution. 2. Per channel filters characterized by Math functions. 20 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 11. Acquisition - digital channels - CX3324A only Maximum real time sample rate Maximum memory depth per channel 500 MSa/s 1 Minimum width glitch detect 1. 128 Mpts 7 ns The memory depth depends on that of analog channels. Table 12. Trigger Source CX3322A Ch 1, 2, aux and line CX3324A Ch 1, 2, 3, 4, aux, line and digital channels Analog channel: 5% of Sensor range Sensitivity Digital channel: See CX1152A characteristics External Trigger Input: DC to 100 MHz (minimum input: 300 mVpp) Analog channel: ± Sensor range 1 Digital channel: see CX1152A Trigger level range External Trigger Input: ±8 V (1 MΩ) Trigger coupling Analog channel DC: high frequency reject (50 kHz low pass filter) External Trigger input DC, or AC: (10 Hz) low frequency reject (50 kHz high pass filter), high frequency reject (50 kHz low pass filter) Sweep modes Auto, triggered, single Trigger hold off range 100 ns to 10 s Trigger actions Specify an action to occur (and the frequency of the action) when a trigger condition occurs. 1. Trigger level range for analog channels is the same as the sensor range connected to mainframe. ± Sensor range = ± 4 div. at default setting. Table 13. Trigger modes Edge (analog and digital) Rising, Falling, Either Edge transition (analog) Rising edge > Time, Rising edge < Time, Falling edge > Time, Falling edge < Time Glitch (analog and digital) Positive glitch > Time, Positive glitch < Time, Positive glitch in range, Negative glitch > Time, Negative glitch < Time, Negative glitch in range Pulse width (analog and digital) Positive pulse width > Time, Positive pulse width > Timeout, Positive pulse width < Time, Negative pulse width > Time, Negative pulse width > Timeout, Negative pulse width < Time Runt (analog) Positive runt, Positive runt (time qualified), Negative runt, Negative runt (time qualified) Timeout (analog and digital) High too long, Low too long, Unchanged too long Pattern/pulse range (analog and digital) Pattern entered, Pattern exited, Pattern present > Time, Pattern present > Timeout, Pattern present < Time, Pattern present in range State (analog and digital) Rising edge (AND), Rising edge (NAND), Falling edge (AND), Falling edge (NAND), Either edge (AND), Either edge (NAND) Window (analog) Entering range, Exiting range, Inside range > Time, Inside range > Timeout, Inside range < Time, Outside range > Time, Outside range > Timeout, Outside range < Time 21 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 14. Measurements and analysis Can be made on either main or zoom region. Up to 8 simultaneous measurements. Amplitude Peak-to-Peak, Minimum, Maximum, Average, DC RMS, AC RMS, Amplitude, Base, Top, Overshoot, Preshoot, Upper, Middle, Lower Time Rise time, Fall time, Positive width, Negative width, Period, Frequency, Duty cycle, Tmin, Tmax Mixed Slew rate, Area Waveform measurements Can operate on any combination of channels, memories, or other functions. Up to 8 independent functions. Math functions Operators Add, Subtract, Multiply, Divide, Absolute value, Average, Delay, Invert, Magnify, Max, Min, Differentiate, Integrate, Square, Square root High pass filter, Low pass filter, Smoothing filter Waveform memory Can be used for Measurements, Math functions and Analyses. Up to 8 independent memories. Markers Cross hair, A-B, Area Statistics analysis Mean, Min, Max, Std dev. for waveform and waveform measurements Amplitude analysis Histogram (Hits, PDF, CDF, CCDF) and Statistics with windowing Spectrum analysis Magnitude and Phase with horizontal gating Power measurement wizard Utilities Power and Current Profiler Table 15. Visualization View Waveform, Histogram, Spectrum, Statistics, Setup summary, Side bar Single, Dual, Single plus Zoom (Vertical, Horizontal, Both) Display style Persistence, Color grade Plot: Auto, Dots, Lines, Area, Gradation, Diamonds Axis: Auto, Linear, Log, Invert Annotation Can be inserted into display area and on specified waveform Table 16. Save and load Screen Capture 1 JPG, BMP, PNG Trigger Setup HDF5 Setup HDF5 (contains all setup including trigger setup) Waveform HDF5 (Save and Load) and CSV 1 Composite HDF5 (contains setup, waveforms, measurement results, and analysis results) Report XPS (contains screen capture, waveforms, measurement results, and analysis results) 1 1. Save only. 22 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 17. Computer system and peripherals, I/O ports Display WXGA 14.1” capacitive multi touch screen Resolution Computer system and peripherals Application runs with 1280 pixels horizontally x 800 pixels vertically Operating system Windows 7 Embedded Standard CPU 3 GHz Intel i5 quad core PC system memory 8 GB RAM Drives ≥ 250 GB removable SSD (solid state drive) Peripherals Optical USB mouse and compact keyboard supplied. All models support any Windows compatible input device with a USB interface LAN LAN RJ-45 connector, supports 10Base-T, 100Base-T, and 1000Base-T. Enables Web-enabled remote control 7 total ports: USB 1 Three USB 2.0 ports on the front Four USB ports on the side (two are USB 3.0 and two are USB 2.0) I/O Ports External display Drivers support up to two simultaneous displays. DisplayPort and VGA video out Auxiliary output ±7 V max., ±200 mA max.: DC, Pulse, Square Time base reference output 10 MHz, 8.33 dBm (1.65 Vpp) into 50 Ω Time base external reference input 10 MHz, 16 dBm (4 Vpp) max. into 50 Ω LXI compliance LXI 1.4 Core, LXI HiSLIP, LXI IPv6 1. USB communication functionality can be affected by RF electro-magnetic field having the strengths greater than 3 V/m in the frequency range of 80 MHz to 2 GHz or 1 V/m in the frequency range of 2 GHz to 2.7 GHz. The extent of this effect depends upon how the instrument is positioned and shielded. Table 18. Environmental and general Temperature Humidity Altitude Power Operating 0 to 40 °C Storage -20 to 60 °C Operating up to 80% relative humidity (non-condensing) at 40 °C Storage up to 90% relative humidity (non-condensing) at 60 °C Operating up to 2000 meters Storage up to 4600 meters 100 V to 240 V ± 10%, 50 Hz / 60 Hz Max power dissipated 250 VA Weight Mainframe: 11 kg Dimensions (with feet retracted) 425.6 mm (W), 266.1 mm (H), 196.7 mm (D) Safety IEC 61010-1 Electromagnetic compatibility standards IEC 61326-1 23 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet CX1100 Series Current Sensors performance characteristics Warranted specifications are denoted by **, and all others are supplemental characteristics. Specifications are valid after a 30-minute warm-up and 23 ±5 ºC. All these characteristics are defined by 14-bit acquisition resolution unless otherwise stated. About the measurement accuracy Measurement accuracy can be affected by RF electro-magnetic field having the strengths greater than 3 V/m in the frequency range of 80 MHz to 2 GHz or 1 V/m in the frequency range of 2 GHz to 2.7 GHz. The extent of this effect depends upon how the instrument is positioned and shielded. Table 19. CX1101A characteristics overview Noise (rms) 3 Maximum bandwidth (-3 dB) 4 10 mA 3 MHz 5 2 mA 100 MHz 410 mΩ (typ) 550 mΩ (max) 0.2 mA 100 MHz 20 μA 100 MHz 2 mA 3 μA 100 MHz 200 μA 50 Ω (typ) 77 Ω (max) 400 nA 25 kHz 40 nA 25 kHz Range RIN 2 10 A 15 mΩ (typ) 1A 200 mA Current measurement 1 20 mA 20 μA 1. 2. 3. 4. Sensor Head used to measure the characteristics: CX1206 for 10 A range and CX1203A for all other ranges. The slide switch of CX1203A to be set to “0 Ω”. 20 MHz noise bandwidth measured with mainframe Standalone bandwidth. The effective measurement bandwidth when connected to mainframe can be estimated by the following equation. BWeffective = 1 √ 1 BW 1 BW 2 + mainframe 2 sensor 5. -4 dB bandwidth Table 20. CX1101A DC measurement accuracy 1 Range Standalone With mainframe 23 ±5 ºC 23 ±5 ºC TUSERCAL ±3 ºC, 24 hrs 2 10 A ± (5% + 5%) ± (5.7% + 5.9%) N/A 1A ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (1.8% + 0.4%) 200 mA ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.7% + 0.4%) ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.6% + 0.3%) 20 mA 2 mA Gain [% of readings] + Offset [% of range] ± (2% + N/A) ** ± (2.7% + N/A) ** ± (0.7% + 1.1%) 200 μA ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.7% + 0.3%) 20 μA ± (2% + N/A) ** ± (2.7% + N/A) ** ± (0.7% + 1.1%) 1. Accuracy is defined at VCM = 0 V (zero Common Mode input voltage at either +IIN or -IIN). Add 0.7% typical to Offset error for Vcm up to 40 V. The “readings” means measured data by mainframe. DC measurement condition: 20 ms averaged. 2 After executing the User Calibration with mainframe. Supplemental characteristics. 24 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 21. CX1101A other characteristics Rise time (10% to 90%) Input common mode impedance 0.35 / Bandwidth [MHz] 750 MΩ // 31 pF (Nominal) 1 Measurable over range 10% of range Burden voltage RIN * Measured current Maximum input voltage (common mode) 2 Peak voltage (DC + AC) limit ±40 V AC voltage limit ±5 V above 1 MHz Range Protection 10 A No fuse protected 1A 200 mA Absolute maximum input current 20 mA 1.5 A fuse protected 3 2 mA 200 μA 20 μA 50 mA fuse protected 1. Measured with a CX1201A. Both inputs has this same input impedance. When using a CX1203A Sensor Head, the minus (-) terminal is internally connected to the circuit common through a 10 MΩ resistor. 2. For all current measurement ranges. 3. CX1203A with 50 Ω setting: 70 mA maximum, 125 mA fuse protected. Table 22. CX1101A general information 1 Cable length Sensor cable: 1.5 m, Gnd lead: 16 cm Dimension 2 46.8 mm (W), 31.9 mm (H), 205.3 mm (D) Weight 400 g 1 each Coaxial Termination Adapter Sensor Head (CX1203A) Furnished accessories 1 each SMA(P) to BNC(J) 50 Ω Coaxial Adapter 1 each GND lead 1. Refer to mainframe’s “Environmental and general” part for other information. 2. CX1203A Sensor Head is included. Cable and adapter are not included. 25 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 23. CX1102A characteristics overview Range Current measurement 1 1. 2. 3. 4. Noise (rms) 3 Maximum bandwidth (-3 dB) 4 Primary channel Secondary channel RIN 2 1A 20 mA 200 mA 2 mA 410 mΩ (typ) 550 mΩ (max) 20 mA 200 μA 50 Ω (typ) 77 Ω (max) 2 mA 20 μA 50 Ω (typ) 77 Ω (max) 2 μA 200 nA 500 kHz 1 μA 5 40 nA 5 25 kHz 5 Primary channel Secondary channel 2 mA 20 μA 0.2 mA 3 μA 20 μA 500 nA 500 kHz 8 μA 400 nA 90 kHz 5 5 100 MHz 5 Sensor Head used to measure the characteristics: CX1203A. The slide switch of CX1203A to be set to “0 Ω”. 20 MHz noise bandwidth measured with mainframe. Standalone bandwidth. The effective measurement bandwidth when connected to mainframe can be estimated by the following equation. BWeffective = 1 √ 1 BW 1 BW 2 mainframe 2 sensor + 5. The sensor built-in low pass filter is ON. Table 24. CX1102A DC measurement accuracy 1 Standalone With mainframe 23 ±5 ºC 23 ±5 ºC TUSERCAL ±3 ºC, 24 hrs 2 1 A primary ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (1.8% + 0.4%) 200 mA primary ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.6% + 0.4%) 20 mA secondary ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.6% + 0.4%) ± (2% + N/A) ** ± (2.7% + N/A) ** ± (0.6% + 0.9%) Range 2 mA secondary 20 mA primary Gain [% of readings] + Offset [% of range] ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.6% + 0.3%) 2 mA primary ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.7% + 0.3%) 200 μA secondary ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.6% + 0.4%) 20 μA secondary ± (2% + N/A) ** ± (2.7% + N/A) ** ± (0.7% + 0.9%) 1. Accuracy is defined at VCM = 0 V (zero Common Mode input voltage at either +IIN or -IIN). Add 0.9% typical to Offset error for Vcm up to 12 V. “Readings” means measured data by mainframe. DC measurement condition: 20 ms averaged. 2. After executing the User Calibration with mainframe. Supplemental characteristics. 26 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 25. CX1102A other characteristics Rise time (10% to 90%) Input common mode impedance 0.35 / Bandwidth [MHz] 750 MΩ // 18 pF (Nominal) 1 Measurable over range 10% of range Burden voltage Maximum input voltage (common mode) RIN * Measured current 2 Peak voltage (DC + AC) limit ±12 V Range Protection 1 A primary 200 mA primary 20 mA secondary Absolute maximum input current 1.5 A fuse protected 3 2 mA secondary 20 mA primary 2 mA primary 200 μA secondary 50 mA fuse protected 20 μA secondary 1. Measured with CX1201A. Both inputs has this same input impedance. When using a CX1203A Sensor Head, the minus (-) terminal is internally connected to the circuit common through a 10 MΩ resistor. 2. All current measurement ranges. 3. CX1203A with 50 Ω setting: 70 mA maximum. 125 mA fuse protected. Table 26. CX1102A general information 1 Cable length Sensor cable: 1.5 m, Gnd lead: 16 cm Dimension 2 46.8 mm (W), 31.9 mm (H), 205.3 mm (D) Weight 400 g 1 each Coaxial Termination Adapter Sensor Head (CX1203A) Furnished accessories 1 each SMA(P) to BNC(J) 50 Ω Coaxial Adapter 1 each GND lead 1. Refer to mainframe’s “Environmental and general” part for other information. 2. CX1203A Sensor Head is included. Cable and adapter are not included. 27 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 27. CX1103A characteristics overview Range RIN Noise (rms) 1 Maximum bandwidth (-3 dB) 2 5 μA 200 MHz 1.5 μA 75 MHz 20 mA 2 mA 200 μA Current measurement 50 Ω typ, 55 Ω max (50 Ω input ON) 20 μA 2 μA 4 Ω typ, 6 Ω max (50 Ω input OFF) 200 nA 150 nA 9 MHz 25 nA 2.5 MHz 1.5 nA 250 kHz 150 pA 100 kHz DC offset range and resolution ±20 mA 0.8 μA resolution ±200 μA 8 nA resolution ±2 μA 80 pA resolution 1. 20 MHz noise bandwidth measured with mainframe. 2. Standalone bandwidth. The effective measurement bandwidth when connected to mainframe can be estimated by the following equation. BWeffective = 1 √ 1 BW 1 BW 2 + mainframe 2 sensor Table 28. CX1103A DC measurement accuracy 1 Standalone Range With mainframe 23 ±5 ºC 23 ±5 ºC TUSERCAL ±3 ºC, 24 hrs 2 20 mA ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.6% + 0.3%) 2 mA ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.6% + 0.4%) ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.6% + 0.4%) ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (0.6% + 0.4%) 2 μA ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (1.3% + 0.4%) 200 nA ± (2% + 2%) ** ± (2.7% + 2.9%) ** ± (1.3% + 0.3%) 200 μA 20 μA Gain [% of readings] + Offset [% of readings] 1. Accuracy is defined at DC offset = 0 A. The “readings” means measured data by mainframe. DC measurement condition: 20 ms averaged. 2. After executing the User Calibration with mainframe. Supplemental characteristics. Table 29. CX1103A other characteristics Rise time (10% to 90%) 0.35 / Bandwidth [MHz] Measurable over range 10% of range Burden voltage RIN * Measured current Maximum input voltage (common mode) 1 Input 50 Ω OFF ±0.5 V Input 50 Ω ON ±1.0 V Absolute Maximum input current 1. 125 mA fuse protected All current measurement ranges. Table 30. CX1103A general information 1 Cable length Sensor cable: 1.5 m, Gnd lead: 16 cm Dimension 45.8 mm (W), 28.1 mm (H), 163.1 mm (D) Weight 300 g Furnished accessories 1 each SMA(P) to BNC(J) 50 Ω Coaxial Adapter 1 each GND lead 1. Refer to mainframe’s “Environmental and general” part for other information. 28 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet CX1151A Passive Probe Interface Adapter characteristics Warranted specifications are denoted by **, and all others are supplemental characteristics. Specifications are valid after a 30-minute warm-up and 23 ± 5 ºC. All these characteristics are defined by 14-bit acquisition resolution unless otherwise stated. About the measurement accuracy Measurement accuracy can be affected by RF electro-magnetic field having the strengths greater than 3 V/m in the frequency range of 80 MHz to 2 GHz or 1 V/m in the frequency range of 2 GHz to 2.7 GHz. The extent of this effect depends upon how the instrument is positioned and shielded. Table 31. CX1151A characteristics overview Range Voltage measurement Noise (rms) 1 8V 5.0 mV 4V 2.8 mV 1.6 V 1.8 mV 0.4 V 250 μV 0.2 V 140 μV 0.08 V 90 μV Maximum bandwidth (-3 dB) 2 DC offset range and resolution ±16 V, 16-bit resolution 300 MHz ±0.8 V, 16-bit resolution 1. Full bandwidth measured with mainframe (Option B20; 200 MHz bandwidth). 2. Standalone bandwidth with an N2843A passive probe. The effective measurement bandwidth when connected to mainframe can be estimated by the following equation. BWeffective = 1 √ 1 BW 1 BW 2 2 + 1 BW 2 mainframe probe adapter + Table 32. CX1151A DC measurement accuracy 1 Range Standalone 23 ±5 ºC 8V With mainframe 23 ±5 ºC TUSERCAL ±3 ºC, 24 hrs (High speed mode) 2 TUSERCAL ±3 ºC, 24 hrs (High resolution mode) 3 ± (0.6% + 0.8%) ** ± (1.3% + 1.7%) ** ± (0.4% + 0.6%) ± (0.3% + 0.4%) 4V ± (0.6% + 0.8%) ** ± (1.3% + 1.7%) ** ± (0.8% + 0.6%) ± (0.5% + 0.4%) 1.6 V ± (0.6% + 0.8%) ** ± (1.3% + 1.7%) ** ± (0.8% + 0.6%) ± (0.5% + 0.4%) ± (0.6% + 0.8%) ** ± (1.3% + 1.7%) ** ± (0.4% + 0.6%) ± (0.3% + 0.4%) 0.2 V ± (0.6% + 0.8%) ** ± (1.3% + 1.7%) ** ± (0.8% + 0.6%) ± (0.5% + 0.4%) 0.08 V ± (0.9% + 1.2%) ** ± (1.6% + 2.1%) ** ± (0.8% + 0.6%) ± (0.5% + 0.4%) 0.4 V Gain [% of readings] + Offset [% of range] Range with 10:1 passive probe 4 TUSERCAL ±3 ºC, 24 hrs (High speed mode) 2 TUSERCAL ±3 ºC, 24 hrs (High resolution mode) 3 80 V ± (2.1% + 0.6%) ± (1.1% + 0.4%) 40 V ± (1.5% + 0.6%) ± (0.8% + 0.4%) ± (0.7% + 0.6%) ± (0.4% + 0.4%) 16 V 4V Gain [% of readings] + Offset [% of range] ± (1.7% + 0.6%) ± (0.9% + 0.4%) 2V ± (1.2% + 0.6%) ± (0.7% + 0.4%) 0.8 V ± (0.4% + 0.6%) ± (0.3% + 0.4%) 1. 2. 3. 4. DC measurement condition: 20 ms averaged. After executing the User Calibration with mainframe. High speed mode (14-bit). Supplemental characteristics. After executing the User Calibration with mainframe. High resolution mode (16-bit). Supplemental characteristics. Passive probe used: N2843A. 29 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet Table 33. CX1151A other characteristics Rise and fall times (10% to 90%) 0.35 / Bandwidth [MHz] Input impedance 1 MΩ ± 0.1%, 13 pF Input coupling DC, AC (3.5 Hz) Maximum input voltage ± 100 V peak (DC + AC) Table 34. CX1151A general information Dimension 58.6 mm (W), 30.2 mm (H), 87.5 mm (D) Weight 130 g Recommended passive probe products 1 N2843A Supported passive probe products 2 (1:1) 10070D, N2870A (10:1) 10073D, 10074D, N2862B, N2863B, N2871A, N2872A, N2873A, N2890A, N2894A, N2853A, N2843A, N2842A, N2841A, N2840A (20:1) N2875A, (100:1) 10076C 1. N2843A is used to measure characteristics shown above. 2. Supported probe’s ratio can be detected by mainframe. 30 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet CX1152A Digital Channel characteristics (mainframe: CX3324A only) Warranted specifications are denoted by **, and all others are supplemental characteristics. Specifications are valid after a 30-minute warm-up and 23 ± 5 ºC. Table 35. CX1152A vertical system - digital channels Input channels 8 channels User-defined threshold range ±25 V, 10 mV step Maximum input voltage ±40 V peak Threshold accuracy ±(150 mV + 3% of threshold setting) Input dynamic range ±25 V Minimum input voltage swing 500 mV peak-to-peak Input impedance 10 MΩ ±2% with approximately 8 pF in parallel Channel-to-channel skew 4 ns Resolution 1 bit 1. 50 Ω input impedance 2. CX1152A is required to enable the input digital channels. Table 36. CX1152A general information Cable length Digital channel cable: 1.15 m, probe lead: 28.5 cm Dimension 68.1 mm (W), 18.5 mm (H), 103.0 mm (D) 1 Weight 130 g 5 probe ground leads Furnished accessories 10 grabbers 1 each BNC-probe tip adapter 1. Dimension of pod. Leads and cables are not included. 31 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet CX3300 Series dimensional drawing (mainframe) Units: mm Figure 34. CX3300 Series schematic diagram. 32 | Keysight | CX3300 Series Device Current Waveform Analyzer - Data Sheet From Hewlett-Packard through Agilent to Keysight For more than 75 years, we‘ve been helping you unlock measurement insights. Our unique combination of hardware, software and people can help you reach your next breakthrough. Unlocking measurement insights since 1939. 1939 THE FUTURE myKeysight www.keysight.com/find/mykeysight A personalized view into the information most relevant to you. 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