| Sample Rate | 2 GSa/s (interleaving mode)οΌ1 GSa/s (non-interleaving mode) |
| Memory depth | 200 Mpts/ch (interleaving mode) * 3οΌ 100 Mpts/ch (non-interleaving mode) |
| Waveform capture rate | Normal mode: 120,000 wfm/s max.
Sequence mode: 500,000 wfm/s max |
| Trace intensity | 256 grades |
| Peak detect | 1 ns minimum detectable pulse |
| Sequence | 90,000 frames max.; Interval between triggers = 2 ΞΌs min. |
| History | 90,000 frames max |
| Interpolation | Sin(x)/x, x |
| Horizontal System | |
|---|
| Time scale | 1 ns/div β 1000 s/div
0.5 ns/div β 1000 s/div when 500 MHz bandwidth option is installed |
| Horizontal range | 10 divisions |
| Display mode | Y-T, X-Y, Roll (β₯50 ms/div) |
| Skew CH1~CH4οΌ | <100 ps |
| Time base Accuracy | Β±1ppm initial; Β±1ppm 1st year aging; Β±3.5ppm 10-year aging |
| Vertical System | |
|---|
| Analogue channels | SDS2354X Plus: 4 + EXT
SDS2204X Plus: 4 + EXT
SDS2102/4X Plus: 2/4 + EXT |
Bandwidth (-3dB)
@ 50 Ξ© | SDS2354X Plus: 350 MHz (standard), 500 MHz (optional)
SDS2204X Plus: 200 MHz
SDS2102/4X Plus: 100 MHz |
Rise time (typical)
@ 50 Ξ© | SDS2354X Plus: 1 ns (standard)
800 ps (optional)SDS2204X Plus: 1.7 ns
SDS2102/4X Plus: 3.5 ns |
| Resolution | 8-bit. 10-bit mode (with typical 100 MHz bandwidth) |
| Vertical range | 8 divisions |
Vertical scale
(probe 1X) | 1MΞ©: 500 ΞΌV/div β 10 V/div
50 Ξ©: 500 ΞΌV/div β 1 V/div |
| DC gain accuracy | β€ 3.0% |
| Offset accuracy | Β±(1.5%*offset+1.5%*full scale+1 mV) |
| Offset range (probe 1X) | 500 ΞΌV/div ~ 100 mV/div: Β± 2 V
102 mV/div ~ 1 V/div: Β± 20 V
1.02 V/div ~ 10 V/div: Β± 200 V |
Bandwidth flatness
@ 50 Ξ© | 10 kHz ~ BW/10: Β±0.5 dB
BW/10 ~ BW/3: Β±0.8 dB
BW/3 ~ BW2/3: +1.0 dB, -1.2 dB
BW2/3 ~ BW: +2.0 dB, -2.5 dB |
| Bandwidth limit | 20 MHz (-0, +20%)
200 MHz (-0, +20%) |
Low frequency response
(AC coupling -3 dB) | 5 Hz (typical) |
Overshoot (150ps fast
edge input @50Ξ©) | <12% (typical) |
| Coupling | DC, AC, GND |
| Impedance | (1 MΞ© Β±2%) || (17 pF Β±2 pF)
50 Ξ©: 50 Ξ© Β±1% |
| Max. Input voltage | 1 MΞ© β€400 Vpk(DC + AC), DC~10 kHz
50 Ξ© β€5 Vrms, Β±10 V Peak |
| SFDR | β₯40 dB |
CH to CH Isolation
@ 50Ξ© | DCο½100 MHz: >40 dB
100 MHz ~ BW: β₯34 dB |
| Probe Attenuation | 1X, 10X, 100X, Custom |
| Trigger System | |
|---|
| Mode | Auto, Normal, Single |
| Level | Internal: Β±4.1 div from the center of the screen
EXT: Β±0.61 V, EXT/5: Β±3.05 V |
| Hold off range | By timeοΌ8 ns ο½ 30 s (8 ns step)
By eventοΌ1 ~ 10 |
| Coupling | CH1~CH4
DC: Passes all components of the signal
AC: Blocks DC components and attenuates signals below 20 Hz
LFRJ: Attenuates the frequency components below 1.2 MHz
HFRJ: Attenuates the frequency components above 600 kHz
Noise RJ: Increases the trigger hysteresis
EXT
DC: Passes all components of the signal
AC: Blocks DC components and attenuates signals below 8 Hz
LFRJ: Attenuates the frequency components below 33 kHz
HFRJ: Attenuates the frequency components above 967 kHz |
| Accuracy (typical) | CH1ο½CH4: Β±0.2 div
EXT: Β±0.3 div |
| Sensitivity | CH1 ο½ CH4:
Noise RJ = OFF Noise RJ = ON
>10 mV/div: Β±0.13 div Β±0.33 div
5 mV/div~10 mV/div: Β±0.26 div Β±0.33 div
β€ 2 mV/div: Β±0.5 div Β±0.5 div
EXT:
200 mVpp, DC ο½ 10 MHz
300 mVpp, 10 MHz ο½ 300 MHz
EXT/5:
1 Vpp, DC ο½ 10 MHz
1.5 Vpp, 10 MHz ο½ 300 MHz |
| Jitter | CH1ο½CH4: <10 ps rms, 6 divisions pk-pk, 2 ns edge
EXT: <200 ps rms |
| Displacement | Pre-Trigger: 0 ~ 100% memory
Delay-Trigger: 0 ~ 5,000 div |
| Zone | Up to 2 zones; Source: CH1~CH4; Property: Intersect, Not Intersect |
| Edge Trigger | |
| Source | CH1~CH4/EXT/(EXT/5)/AC Line/D0~D15 |
| Slope | Rising, Falling, Rising & Falling |
| Slope Trigger | |
| Source | CH1~CH4 |
| Slope | Rising, Falling |
| Limit range | β€, β₯, in range, out of range |
| Time range | 2 ns ο½ 20 sοΌ1 ns resolution |
| Pulse Width Trigger | |
| Source | CH1~CH4/D0~D15 |
| Polarity | +wid, -wid |
| Limit range | β€, β₯, in range, out of range |
| Time range | 2 ns ο½ 20 sοΌ1 ns resolution |
| Video Trigger | |
| Source | CH1~CH4 |
| Standard | NTSCοΌPALοΌ720p/50οΌ720p/60οΌ1080p/50οΌ1080p/60οΌ1080i/50οΌ1080i/60οΌCustom |
| Synchronization | Any, Select |
| Trigger Condition | Line, Field |
| Window Trigger | |
| Source | CH1~CH4 |
| Window type | Absolute, Relative |
| Interval Trigger | |
| Source | CH1~CH4/D0~D15 |
| Slope | Rising, Falling |
| Limit range | β€, β₯, in range, out of range |
| Time range | 2 ns ο½ 20 sοΌ1 ns resolution |
| Dropout Trigger | |
| Source | CH1~CH4/D0~D15 |
| Timeout type | Edge, State |
| Slope | Rising, Falling |
| Time range | 2 ns ο½ 20 sοΌ1 ns resolution |
| Runt Trigger | |
| Source | CH1~CH4 |
| Polarity | Positive, Negative |
| Limit range | β€, β₯, in range, out of range |
| Time range | 2 ns ο½ 20 sοΌ1 ns resolution |
| Pattern Trigger | |
| Source | CH1~CH4/D0~D15 |
| Pattern Setting | Donβt Care, Low, High |
| Logic | AND, OR, NAND, NOR |
| Limit range | β€, β₯, in range, out of range |
| Time range | 2 ns ο½ 20 sοΌ1 ns resolution |
| Serial Trigger | |
| Source | CH1~CH4/D0~D15 |
| Protocol | Standard: I2CγSPIγUARTγCANγLIN
Optional: CAN FDγFlexRayγI2SγMIL-STD-1553B |
| I2C Trigger | Type: Start, Stop, Restart, No Ack, EEPROM, Address & Data, Data Length |
| SPI Trigger | Type: Data |
| UART Trigger | Type: Start, Stop, Data, Parity Error |
| CAN Trigger | Type: All, Remote, ID, ID+Data, Error |
| LIN Trigger | Type: Break, Frame ID, ID+Data, Error |
| CAN FD Trigger (Optional) | Type: Start, Remote, ID, ID+Data, Error |
FlexRay trigger
(optional) | Type: TSS, Frame, Symbol, Errors |
| I2S trigger (optional) | Type: Data, Mute, Clip, Glitch, Rising Edge, Falling Edge |
MIL-STD-1553B trigger
(optional) | Type: Transfer, Word, Error, Timing |
| General Specifications | |
|---|
Input Voltage &
Frequency | 100 ο½ 240 Vrms 50/60Hz
100 ο½ 120 Vrms 400Hz |
| Power consumption | 80 W max., 50 W typical, 4 W typical in standby mode |
| Temperature | Operating: 0 Β°C ~ 40 Β°C
Non-operating: -20 Β°C ~ 60 Β°C |
| Humidity | Operating: 85% RH, 40 Β°C , 24 hours
Non-operating: 85% RH, 65 Β°C, 24 hours |
| Altitude | Operating: β€3,000 m
Non-operating: β€15,266 m |
| Display Type | 10.1βTFT LCD with capacitive touch screen |
| Resolution | 1024Γ600 |
| Contrast | 500:1 typical |
| Backlight | 500 nit typical |
| Dimensions | Length x Height x Width = 352 mmΓ224 mmΓ111 mm |
| Weight | Net Weight: 3.3 kg (2-ch); 3.9 kg (4-ch)
Gross Weight: 4.8 kg (2-ch); 5.4 kg (4-ch) |
Siglent SDS2000X Plus Datasheet
bmcintosh (verified owner) –
Purchased the Siglent SDS2104X Plus as a replacement for my 2014 model Rigol DS2072A. Very happy with the Rigol apart from the font used for all on screen measurement being so small that I was needing a magnifier to read it. PC software access never worked nicely. I suspect the latest Rigols are better. It served me well but the Siglent is a big leap forward. Yes it costs a bit more but the user interface is stunning in comparison, and whilst tech specs are obviously a key to selecting a purchase, it is the UI that you use every day that can make it either a misery or a pleasure to use.
Large screen (and with VNC on my double width 30 inch PC monitor I reckon you can see the font sizes in Timbuctoo!). Touch, mouse or use the physical buttons β all work intuitively smoothly.
The specs speak for themselves so not much to say here but I have two gripes. Keep them in perspective as I have nevertheless rated the scope 4 star (might have been 5 otherwise). One is that the cooling fan, although much quieter than most test gear I have used, has a tiny little clicking sound, noted by many on EEVBlog. Not worth a warranty return since it seems most of them do this and its not exactly loud, just ever so slightly noticeable. In a commercial lab you wouldnβt actually notice, but if youβre in a quiet place working from home where itβs the only test instrument in use then marginally irritating. A much bigger gripe for me is that there is no βAverageβ mode on the Acquisition menu. I am used to hitting one button to try a smoothed out trace which I may continue to use or take off again. On the Siglent you need to set up the channel, go into Math, set up a math function on your chosen channel, then go back to your channel, hide it so only the math is on the screen. Sinc the math is post processing there is a pause after each sweep while it does the average. Oh, and there are only two math channels anyway to share between all all four inputs. Grrrrr ! To be fair, a real nice feature is that once in the math menu, the UI again is really nice with a great custom function building screen.
A review wouldnβt be complete without mentioning the attention given by the crew at Telonic β attentive and helpful β a model of customer service which I put to the test because of some delivery hiccoughs with the courier. Effective and efficient β thanks team Teloonic.
In summary, check the spec, if it matches your needs don’t hesitate to buy this well designed instrument. Look at some of the online tear-down videos of Siglent scopes and spectrum analisers if you are in any doubt about build quality – its really good.