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DPO4104B digital fluorescence oscilloscope
Vertical system characteristics DPO4034BMSO4034BDPO4054BMSO4054BDPO4104BMSO4104B Input channel quantity 4 Analog bandwidth (-3dB) 5mV/div -1V/div 350M
Product details
Vertical system
| characteristic | DPO4034B MSO4034B |
DPO4054B MSO4054B |
DPO4104B MSO4104B |
| Number of input channels | 4 | ||
| Simulated bandwidth (-3dB) 5 mV/div -1 V/div | 350 MHz | 500 MHz | 1 GHz |
| Calculated rise time of 5 mV/div (typical value) | 1 ns | 700 ps | 350 ps |
| Hardware bandwidth limit | 20 MHz or 250 MHz | ||
| Input Coupling | AC, DC | ||
| Input impedance | 1 MΩ±1%, 50 Ω±1% | ||
| Input sensitivity range, 1 M Ω | 1 mV/div - 10 V/div | ||
| Input sensitivity range, 50 Ω | 1 mV/div - 1 V/div | ||
| Vertical Resolution | 8 bits (11 bits when using Hi Res) | ||
| Maximum input voltage, 1 M Ω | 300 VRMS CAT II, Peak value ≤ ± 425 V | ||
| Maximum input voltage, 50 Ω | 5 VRMS, Peak value ≤ ± 20 V | ||
| DC gain accuracy | ± 1.5%, decreasing at a rate of 0.10%/℃ when the temperature exceeds 30 ℃ | ||
| Channel to channel isolation (any two channels with equal vertical scales) | Set any two equal channels for Volts/div, with a ratio of ≥ 100:1 for ≤ 100 MHz and ≥ 30:1 for>100 MHz to rated bandwidth | ||
Bias range
| range | 1 MΩ | 50 Ω |
| 1 mV/div - 50 mV/div | ±1 V | ±1 V |
| 50.5 mV/div – 99.5 mV/div | ±0.5 V | ±0.5 V |
| 100 mV/div - 500 mV/div | ±10 V | ±10 V |
| 505 mV/div - 995 mV/div | ±5 V | ±5 V |
| 1 V/div - 5 V/div | ±100 V | ±5 V |
| 5.05 V/div - 10 V/div | ±50 V | NA |
Vertical System Digital Channel
| characteristic | All MSO4000B models |
| Number of input channels | 16 digital channels (D15 to D0) |
| threshold | Set separate thresholds for each channel |
| Threshold selection | TTL, CMOS, ECL, PECL, User defined |
| User defined threshold range | ± 40 V |
| Maximum input voltage | ± 42 Vpeak |
| Threshold accuracy | ± (100 mV+3% threshold setting) |
| Input Dynamic Range | 30 Vp-p ≤ 200 MHz 10 Vp-p >200 MHz |
| Minimum voltage swing | 400 mV |
| Input impedance | 100 kΩ |
| Probe load | 3 pF |
| Vertical Resolution | 1 person |
Horizontal system simulation channel
| characteristic | DPO4034B MSO4034B |
DPO4054B MSO4054B |
DPO4104B MSO4104B |
| Maximum sampling rate (all channels) | 2.5 GS/s | 2.5 GS/s | 5 GS/s |
| Maximum record length (all channels) | 20 M points | ||
| The maximum duration captured at the highest sampling rate (for all channels) | 8 ms | 8 ms | 8 ms |
| Time base range (S/div) | 1 ns – 1,000 s | 400 ps – 1,000 s | |
| Time base delay time range | -10 grids to 5000 seconds | ||
| Channel to channel offset correction range | ±125 ns | ||
| Time base accuracy | ± 5 ppm at any interval ≥ 1 ms | ||
Horizontal system digital channel
| characteristic | All MSO4000B models |
| Maximum sampling rate (main time base) | 500 MS/s (2 ns resolution) |
| Maximum record length (main time base) | 20 M points |
| Maximum sampling rate (MagniVu) | 16.5 GS/s (60.6 ps resolution) |
| Maximum record length (MagniVu) | 10k points, centered around the trigger point |
| Minimum detectable pulse width | 1 ns |
| Channel to channel offset | 200 ps typical value |
| Maximum input switching rate | 500MHz |
TRIGGER
| characteristic | describe |
| Main triggering mode | Automatic trigger, normal trigger, and single trigger |
| Trigger coupling | DC, AC, HF suppression (attenuation>50 kHz), LF suppression (attenuation<50 kHz), noise suppression (reduced sensitivity) |
| Trigger release range | 20 ns - 8 s |
Trigger sensitivity
| characteristic | describe |
| Internal DC coupling | |
|
1M path (All models) 50 Ω path (MSO/DPO4054B, MSO/DPO4034B) |
1 mV/div - 4.98 mV/div; DC-50 MHz is 0.75 div, and the instrument bandwidth is increased to 1.3 div. /p> ≥ 5 mV/div; DC-50 MHz is 0.4 div, and the instrument bandwidth is increased to 1 div |
|
50 Ω path (MSO/DPO4104B) |
DC-50 MHz is 0.4 div, and the instrument bandwidth is increased by 01 div |
| External (auxiliary input) | |
| auxiliary input | DC-50 MHz is 200 mV, and the instrument bandwidth is increased to 500 mV |
Trigger level range
| characteristic | describe |
| Any channel | ± 8 grids from the center of the screen |
| External (auxiliary input) | ±8 V |
MODE
| mode | describe |
| edge | Positive or negative slope on any channel or front panel auxiliary input. Coupling includes DC, AC, high-frequency suppression, low-frequency suppression, and noise suppression |
| Sequence (triggered by B) | Trigger on time delay of -4 ns to 8 s, or trigger on event delay of -1 to 4000000 events |
| Pulse width | Triggered on positive or negative pulse widths of>,<,=, or ≠ specific time periods |
| timeout | Triggered when no pulse is detected within the specified time (4 ns-8 s). |
| Short pulse | Triggered when a pulse crosses a threshold but fails to cross the second threshold before crossing the first threshold again |
| logic | Trigger collection when any logical code pattern of the channel becomes false or remains true within a specified time. You can use any input as a clock to find the code pattern on the clock edge. The code patterns (AND, OR, NAND, NOR) specified by the four input channels are defined as high, low, or indifferent |
| Establish/Maintain Time | Triggered when the establishment time and holding time between the clock and data present in any two input channels exceed the threshold |
| Rise/fall time | Trigger acquisition when the pulse edge rate is faster or slower than the specified value. The slope can be positive, negative, or any other value |
| video | NTSC, PAL, and SECAM video signals trigger on all lines, odd, even, or all fields |
| Extended video (optional) | Trigger 480 p/60, 576p/50, 720p/30, 720p/50, 720p/60, 875i/60, 1080i/50, 1080i/60, 1080p/24, 1080p/24sF, 1080p/25, 1080p/30, 1080p/50, 1080p/60 Customize dual level and three-level synchronous video standards |
| I2C (optional) | Start, repeat start, stop, ACK loss, address (7 or 10 bits), data or address and data triggered acquisition on I2C bus up to 10 Mb/s |
| SPI (optional) | Trigger acquisition on SS, MOSI, MISO or MOSI and MISO on SPI bus up to 50 Mb/s (applicable only to 4-channel models). |
| USB (optional) |
Low speed: triggers synchronization, reset, pause, resume, packet tail, token (address) packet, data packet, handshake packet, dedicated packet, error.
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Full speed: triggers synchronization, reset, pause, resume, packet tail, token (address) packet, data packet, handshake packet, dedicated packet, error.
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High speed: triggers synchronization, reset, pause, resume, packet tail, token (address) packet, data packet, handshake packet, dedicated packet, error.
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| Ethernet (optional) | 10BASE-T: Trigger start frame delimiter, MAC address, MAC Q-Tag control information, MAC length/type, IP packet header, TCP packet header, TCP/IPv4/MAC client data, packet tail, FCS (CRC) error. MAC address - triggers 48 bit address values for the source and destination. MAC Q-Tag control information - triggers a 32-bit Q-Tag value. MAC length/type - triggers acquisition when ≤,=, ≥, ≠ a certain 16 bit value or when it is within or outside the range. IP packet header - triggers IP protocol 8-bit value, source address, destination address. TCP packet header - triggers source port, destination port, sequence number, and acknowledgement number. TCP/IPv4/MAC client data - triggers collection when ≤,=, ≥, ≠ a certain 16 bit value or when it is within or outside the range. You can choose The number of trigger bytes selected is 1-16. The byte offset option is optional, 0-1499. |
| 100BASE-TX: Trigger start frame delimiter, MAC address, MAC Q-Tag control information, MAC length/type, IP packet header, TCP packet header, TCP/IPv4/MAC client data, packet tail, FCS (CRC) error. MAC address - triggers 48 bit address values for the source and destination. MAC Q-Tag control information - triggers a 32-bit Q-Tag value. MAC length/type - triggers acquisition when ≤,=, ≥, ≠ a certain 16 bit value or when it is within or outside the range. IP packet header - triggers IP protocol 8-bit value, source address, destination address. TCP packet header - triggers source port, destination port, sequence number, and acknowledgement number. TCP/IPv4/MAC client data - triggers collection when ≤,=, ≥, ≠ a certain 16 bit value or when it is within or outside the range. You can choose The number of trigger bytes selected is 1-16. The byte offset option is optional, 0-1499. | |
| CAN (optional) | On CAN signals up to 1 Mb/s, frame start, frame type (data, remote, error, overload), identifier (standard or extended), data, identifier and data, frame end or ACK loss trigger collection. Further data can be specified to trigger collection when specific data values are ≤,=, ≥, or ≠. The sample points that users can adjust are set to 50% by default |
| LIN (optional) | Triggering synchronization, identifiers, data, identifiers and data, wake-up frames, sleep frames, and errors (such as synchronization errors, parity errors, or checksum errors) up to 1 Mb/s (defined as 20 kb/s according to LIN) |
| FlexRay (optional) | At the beginning of the frame, frame type (normal, payload, null, synchronous, startup), number of cycles, entire packet header field, data, identifier and data, and at the end of the frame or when there is an error (such as packet header CRC error, packet tail CRC error, null frame error, synchronous frame error, or startup frame error), collection is triggered. |
| RS-232/422/485/UART (Optional) |
Trigger up to 10 Mb/s Tx start bit, Rx start bit, Tx packet tail, Rx packet tail, Tx data, Rx data, Tx parity error, and Rx parity error |
| I2S/LJ/RJ/TDM (optional) | Trigger Word Select, Frame Sync, or Data. Further data can be specified to trigger collection when ≤,<,=,>, ≥, ≠ a certain data value or when it falls within or outside the range. The maximum data rate of I2S/LJ/RJ is 12.5 Mb/s. The maximum data rate for TDM is 25 Mb/s |
| parallel (Only available on MSO models) |
Trigger parallel bus data values. The parallel bus length can range from 1 bit to 20 bits. Supports binary and hexadecimal cardinality |
Acquisition mode
| mode | describe |
| sampling | Collect sampling values |
| Peak detection | Capture the narrowest glitch of 800 ps (1 GHz model) or 1.6 ns (500 MHz and 350 MHz models) at all scanning speeds |
| average | On average, it can include 2-512 waveforms |
| envelope | The minimum maximum envelope reflects the peak detection data collected multiple times |
| Hi-Res | Real time rectangular wave series averaging reduces random noise and improves resolution |
| Scroll Mode | Scroll the waveform from right to left on the screen at a scanning speed of 40 ms/div or less |
Waveform measurement
| cursor | Waveform and Screen |
| automatic measurement | 29 types, of which up to 4 measurement functions can be displayed on the screen at once. Measurement includes cycle, frequency, delay, rise time, fall time, positive duty cycle, negative duty cycle, positive pulse width, negative pulse width, burst width, phase, positive overshoot, negative overshoot, peak to peak value, amplitude, high value m low value, maximum value, minimum value, average value, cycle mean, RMS, cycle RMS, area, and cycle area |
| Measurement statistics | Mean, minimum, maximum, standard deviation |
| Reference level | User definable automatic measurement reference levels can be specified in percentages or units |
| gate | Use a screen or waveform cursor to isolate specific situations that occur within the collection to be measured. Measure using the entire record by default |
| Waveform histogram |
The waveform histogram provides an array of data values representing the total number of points falling within the user-defined display area. A waveform histogram is a visual chart of point distribution and numerical arrays that can be measured. Source - Channel 1, Channel 2, Channel 3, Channel 4, Ref 1, Ref 2, Ref 3, Ref 4, Math Type - Vertical, Horizontal |
| Measurement of waveform histogram | Number of waveforms, number of points in the box, number of peak values, median value, maximum value, minimum value, peak to peak value, average value, standard deviation, Sigma 1, Sigma 2, Sigma 3 |
Power measurement (optional)
| characteristic | describe |
| Power quality measurement | VRMS, V Crest Factor, Frequency, IRMS, I Crest Factor, real power, apparent power, reactive power, power factor, phase angle |
| Measurement of switch losses | Power loss: Ton, Toff, conducted power loss, total power loss |
| energy loss |
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