The 6527 Starflow QSD incorporates an ultrasonic depth sensor and an absolute pressure depth sensor. An ultrasonic depth sensor measures the water depth using the ultrasonic principle and has a range of up to 5m. An absolute pressure sensor measures pressure forces applied to the strain gauge. The absolute, non-vented, sensor reports a value equal to the sum of the water pressure and the atmospheric pressure above the water. In order to compensate for the atmospheric (barometric) pressure fluctuation, the 6527 Starflow QSD should be connected to the 6515 Starflow QSD barometric reference. The absolute pressure sensor has a range of up to 10m. Having sensors using different depth measurement methods provides flexibility in in-depth measurement.
The 6527 instrument’s low profile form factor minimises disturbance to the flow it’s measuring. Furthermore, the 6527 instrument measures velocity in both directions and is suitable for use in a wide range of water qualities, from sewage to potable water, and seawater too. With a companion Unidata data logger or a telemetered Neon Remote Logger, the instrument can be programmed to compute flow rate and total flow in pipes and open channels of known dimensions.
The Unidata 6527 Starflow QSD can be upgraded to include a data logger 6527L, similar in function to the older Starflow 6526 products. Using Starlog 4 software and the built-in logger, cross-section profiles can be defined to calculate flow rate and total flow.
The Unidata 6537 Starflow QSD SDI-12 and Modbus Instrument has a 4 electrode electro conductivity instrument (EC) included for measuring the quality of the water. Water quality is measured on an ongoing basis and this parameter can be recorded along with velocity and depth to better analyse the nature of the water in open channels and pipes. Conductivity is a very important water quality measure and any spike in conductivity is a strong indicator of a pollution event.
The Unidata 6515 Barometric Reference is a barometric reference module that is used with the Starflow QSD instruments to correct the pressure sensor depth sensor readings for atmospheric pressure variations.
The 6515 barometric reference is a module that is installed in line with a Starflow QSD Instrument to monitor the barometric pressure in the geographical location of the instrument. With this module barometric compensation can be achieved for the depth sensor within the Starflow QSD Instrument, so the depth sensor provides pressure and derived depth readings which are corrected for differences in atmospheric pressure. 6515 barometric reference inbuilt electronic components communicate with the Starflow QSD instrument via a dedicated protocol providing regular atmospheric pressure readings. These values are then applied to the pressure sensor, allowing the Starflow QSD Instrument to report true atmospheric pressure compensated depth readings.
An alternative to using a 6515 barometric reference can be any other electronic barometer, which is read and then the depth readings are corrected for atmospheric pressure in another system, such as another data logger or an RTU connected to the SCADA system.
Another alternative to this barometric reference could also be to consult the local weather service and obtain the current barometric pressure for the geographical location where the Starflow QSD Instrument is deployed and use those readings as a depth compensation factor in the end system where the velocity and depth data is being stored.
The Model 6705 expanding band kit allows you to install a Starflow QSD instrument in pipes of different sizes. The band is flexible enough to fit irregular shapes such as ovoid sections. All components are made from stainless steel and the band fittings are 100mm wide to match the 6527M mounting bracket.
Specifications 6527B and 6537A
Physical specifications
- Material: Epoxy-sealed body, Marine Grade 316 Stainless Steel Mounting Bracket
- Size: 135mm x 55mm x 22mm (LxWxH)
- Weight: 1kg with 15m of Cable
- Operating temperature: 0°C to 60°C water temperature
Velocity and Depth specifications
-
Velocity Range:
– 20mm/s to 0.8m/s
– 20mm/s to 1.6m/s in one direction (default)
– 20mm/s to 3.2m/s
– 20mm/s to 13.2m/s
– Bidirectional velocity capability, set using configuration tools - Velocity Accuracy: ±1% typical
- Depth Range Ultrasonic Sensor:
- 20mm up to 5m above top surface of the instrument
- 40mm up to 5m from the base of the instrument
- Depth Accuracy Ultrasonic Sensor : Typical ± 1%
- Depth Range Absolute Pressure Sensor: 0 to 10m
- Depth Accuracy Absolute Pressure Sensor::
- Typical ± 0.19% for 0m to 5m range
- Typical ± 0.38% for 0m to 10m range
- Temperature Resolution: 0.1°C
- Flow Computation 6527B: Flow rate, totalised flow with companion NRL
- Flow Computation 6527B-L: Flow rate, totalised flow
- Channel type: Pipe, open channel, natural stream
- Conductivity (6537 Only):: 0-200,000uS/cm Typically ±1% of measurement, returned either as
- 16-bit value (0 65535uS/cm) or 32-bit value (0-262,143uS/cm)
- Compensation Conductivity (6537 Only): 25°C default / set using configuration tools
- Cable: 15 metre, 6 way
- Cable Options: User specified up to 50 metres
Electrical specifications
- Power Source Typical: External Battery 12V – 24V DC
- Power Usage: 70µA standby, peak 800mA 10ms, 150mA 1 sec@12V
- SDI-12: SDI-12V 1.3 recorder (1200 baud smart instrument channel)
- RS 485: Modbus RTU
Specifications 6515
- Size: 75mm x 45mm x 20mm (LxWxH)
- Pressure Range: 0 to 100kPa
- Accuracy: 0.25% FS
Specifications Expanding Band Kit Model 6705
Physical specifications
- Material: 316 stainless steel
-
Dimensions and weight:
0.5 kg Model 6705A Small expending 100mm to 150mm clamp
1.2 kg Model 6705D 1800mm long band segment, 100mm wide
0.2 kg Model 6705F Band joiner 50mm x 100mm
Ordering Information
Model
Description
6527B
Starflow QSD SDI-12/MODBUS Instrument Ultrasonic Doppler Velocity & Depth + Pressure Depth Instrument
6527B-S
Special cable length (up to 50m) Starflow QSD SDI-12/MODBUS Instrument Ultrasonic Doppler Velocity & Depth + Pressure Depth Instrument
6527B-L
Starflow QSD SDI-12/MODBUS Instrument Ultrasonic Doppler Velocity & Depth + Pressure Depth Instrument with the Built-in logger
6527B-S-L
Special cable length (up to 50m) Starflow QSD SDI-12/MODBUS Instrument Ultrasonic Doppler Velocity & Depth + Pressure Depth Instrument with the Built-in logger
6537A
Starflow QSD SDI-12/MODBUS Instrument Ultrasonic Doppler Velocity & Depth, Pressure Depth and Conductivity Instrument
6537A-S
Special cable length (up to 50m) Starflow QSD SDI-12/MODBUS Instrument Ultrasonic Doppler Velocity & Depth, Pressure Depth and Conductivity Instrument
6515D
Starflow QSD Barometric Reference
6705A
Starflow QSD Small SS Expanding Clamp 100mm to 150mm
6705D
Starflow QSD 1800mm x 100mm SS Band Segment
6705F
Starflow QSD 100mm SS Band Joiner for 6705D
Documents
Brochures
Application Notes
Q1: Does the velocity measurement has a ‘dead band’ close to the ultrasonic eyes, and if so, what is the dead band distance?
Can the Starflow QSD be used in small pipes?
Q3: What is the angle of the ultrasonic beam when using Starflow QSD to measure water level?
Q4: What is the angle of the acoustic beam with or spread when using Starflow QSD to measure the flow rate? What is the angle of the centreline of an acoustic beam?
Q5: Will water level measurements be affected if ultrasonic touches the wall of the pipe?
Q6: The Starflow QSD is used in the water channel. The water level and flow rates can suddenly change. What is response time to depth change?
A6: Response time to depth change is controlled by the amount of filtering/averaging being used. If no averaging is used, the depth measurement will be an immediate depth value at the time of measurement. The rate of SDI-12 interrogation then determines the response time.
Averaging is used in open water conditions to smooth out the effect of surface ripples/waves.
