The KwikSense RD enables users to duplicate the transmitter display at a second remote location. This is particularly useful if the gas transmitter is located in a location where its display is difficult to view or in case a second display is required. It can act as a controller and/or as a bridge between the detector and controller.
It comes with an industry-standard RS-485 MODBUS-RTU and 4-20 mA output to connect the controller as well as the detector. All settings can be configured using the supplied non-intrusive magnetic wand.
| Gas | Ordering Code | Range / Resolution | Sensor Technology | ||
| Acetic Acid | SSA0074A | 0 – 30 ppm | EC | ||
| 0.1 ppm | |||||
| Acetylene | SSA0099C | 0 – 100% LEL | Pellister | ||
| 1% LEL | |||||
| Ammonia | SSA0082A | 0 – 100 ppm | EC | ||
| 1 ppm | |||||
| Ammonia | SSA0082B | 0 – 1000 ppm | EC | ||
| 1 ppm | |||||
| Butadiene | SSA0099V | 0-50 ppm | PID | ||
| 1 ppm | |||||
| Butadiene | SSA0099S | 0 – 100% LEL | NDIR | ||
| 1% LEL | |||||
| Bromine* | SSA0061A | 0 – 20 ppm | EC | ||
| 0.1 ppm | |||||
| Butanol | SSA0099D | 0 – 100% LEL | Pellister | ||
| 1% LEL | |||||
| Carbon Dioxide | SSA0025A | 0 – 5% v/v. | NDIR | ||
| 0.01% v/v. | |||||
| Carbon Dioxide | SSA0025B | 0 – 100% v/v | NDIR | ||
| 1% v/v | |||||
| Carbon disulphide | SSA0021A | 0 – 50 ppm | PID | ||
| 0.1 ppm | |||||
| Carbon disulphide | SSA0021B | 0 – 100 ppm | EC | ||
| 1 ppm | |||||
| Carbon Monoxide | SSA0020D | 0 – 100 ppm | EC | ||
| 1 ppm | |||||
| Carbon Monoxide | SSA0020E | 0 – 200 ppm | EC | ||
| 1 ppm | |||||
| Carbon Monoxide | SSA0020F | 0 – 300 ppm | EC | ||
| 1 ppm | |||||
| Carbon Monoxide | SSA0020B | 0 – 500 ppm | EC | ||
| 1 ppm | |||||
| Carbon Monoxide | SSA0020A | 0 – 1000 ppm | EC | ||
| 1 ppm | |||||
| Carbon Monoxide | SSA0020C | 0 – 2000 ppm | EC | ||
| 1 ppm | |||||
| Chlorine | SSA0060B | 0-10 PPM | EC | ||
| 0.1 PPM | |||||
| Chlorine | SSA0060A | 0 – 20 ppm | EC | ||
| 0.1 ppm | |||||
| Chlorine Dioxide | SSA0062A | 0-1 PPM | EC | ||
| 0.1 PPM | |||||
| Ethylene | SSA0097A | 0 – 1500 ppm | EC | ||
| 5 ppm | |||||
| ETO*** | SSA0083A | 0 – 20 ppm | EC | ||
| 0.1 ppm | |||||
| ETO*** | SSA0083B | 0 – 100 ppm | EC | ||
| 1 ppm | |||||
| Formaldehyde | SSA0098A | 0 – 10 ppm | EC | ||
| 0.1 ppm | |||||
| HC (Methane) | SSA0099A | 0 – 100% LEL | Pellister | ||
| 1% LEL | |||||
| HC (Methane) | SSA0099G | 500 – 10000 ppm | Solid State | ||
| 10 ppm | |||||
| HC & H2 (MPS) | SSA0099AS | 0 – 100% LEL | MPS | ||
| 0.1% LEL | |||||
| HC | SSA0099H | 50 – 1000 ppm | Solid State | ||
| 1 ppm | |||||
| Hydrogen (IIC) | SSA0090C | 0 – 100% LEL | Pellister | ||
| 1% LEL | |||||
| Hydrogen (IIC) | SSA0090A | 0 – 1000 ppm | EC | ||
| 1 ppm | |||||
| Hydrogen (IIC) | SSA0090B | 0 – 100% LEL | EC | ||
| 1% LEL | |||||
| Hydro Carbon | SSA0099H | 50 – 1000 ppm | Solid State | ||
| 1 ppm | |||||
| Hydrogen Chloride* | SSA0070A | 0 – 20 ppm | EC | ||
| 0.1 ppm | |||||
| Hydrogen Cyanide | SSA0075B | 0 – 30 ppm | EC | ||
| 0.1 ppm | |||||
| Hydrogen Cyanide | SSA0075A | 0 – 100 ppm | EC | ||
| 1 ppm | |||||
| Hydrogen Fluoride* | SSA0072A | 0 – 10 ppm | EC | ||
| 0.1 ppm | |||||
| Hydrogen Sulphide | SSA0030B | 0-20 ppm | EC | ||
| 1 ppm | |||||
| Hydrogen Sulphide | SSA0030A | 0 – 100 ppm | EC | ||
| 1 ppm | |||||
| Iso-Butane | SSA0099O | 0 – 100% LEL | Pellistor | ||
| 1% LEL | |||||
| LPG | SSA0099B | 0 – 100% LEL | Pellister | ||
| 1% LEL | |||||
| LPG | SSA0099T | 0 – 100% LEL | NDIR | ||
| 1% LEL | |||||
| MEK | SSA0099P | 0 – 100% LEL | NDIR | ||
| 1% LEL | |||||
| Methane | SSA0099E | 0 – 100% LEL | NDIR | ||
| 1% LEL | |||||
| Methane | SSA0099F | 0 – 100% v/v | NDIR | ||
| 1% v/v | |||||
| Methanol | SSA0099K | 0 – 100 ppm | EC | ||
| 1 ppm | |||||
| Methanol | SSA0099M | 0 – 500 ppm | EC | ||
| 1 ppm | |||||
| Methanol | SSA0099U | 0 – 100% LEL | Pellister | ||
| 1% LEL | |||||
| Mercaptan* | SSA0035A | 0 – 20 ppm | EC | ||
| 0.1 ppm | |||||
| Methyl Bromide | SSA0051A | 0 – 200 ppm | Solid State | ||
| 1 ppm | |||||
| Mono Methyl Amine | SSA0087A | 0 -100 ppm | EC | ||
| 1 ppm | |||||
| N-Butane | SSA0099N | 0 – 100% LEL | Pellister | ||
| 1% LEL | |||||
| Methanol*** | Please Ask | 0 – 100 ppm | EC | ||
| 1 ppm | |||||
| Nitrogen Dioxide | SS00081A | 0 – 20 ppm | EC | ||
| 0.1 ppm | |||||
| Oxygen | SSA0010A | 0 – 25% v/v. | EC | ||
| 0.1% v/v. | |||||
| Ozone* | SSA0015A | 0-1 ppm | EC | ||
| 0.01 ppm | |||||
| PCl3* | SS00071A | 0-10 PPM | EC | ||
| 1 PPM | |||||
| Phosgene* | SS00055A | 0 – 1 ppm | EC | ||
| 0.01 ppm | |||||
| Phosphine | SSA0055A | 0 – 10 ppm | EC | ||
| 0.01 ppm | |||||
| Phosphine | SSA0050B | 0 – 20 ppm | EC | ||
| 0.1 ppm | |||||
| Phosphine | SSA0050C | 0 – 20 ppm | EC | ||
| 0.01 ppm | |||||
| Phosphine | SS00050E | 0 – 2000 ppm | EC | ||
| 1 ppm | |||||
| Phosphine | SSA0050D | 0 – 5000 ppm | EC | ||
| 10 ppm | |||||
| POCl3* | SS00073A | 0-20 PPM | EC | ||
| 1 PPM | |||||
| Propane | SSA0099J | 0 – 100% LEL | Pellister | ||
| 1% LEL | |||||
| Propane | SSA0099I | 0 – 100% LEL | NDIR | ||
| 1% LEL | |||||
| Propylene | SSA0099L | 0-2 % v/v | NDIR | ||
| 0.01% v/v | |||||
| Refrigerant R32 | SSA0041A | 5-100% LFL | MPS | ||
| 0.1% LFL | |||||
| Silane | SSA0053A | 0 – 15 ppm | EC | ||
| 1 ppm | |||||
| Sulphur Dioxide | SSA0040A | 0 – 20 ppm | EC | ||
| 0.1 ppm | |||||
| Vinyl Chloride (Vinyl Chloro Monomer)* | SSA0022A | 0 – 100 ppm | EC | ||
| 1 ppm | |||||
| VOC (Benzene) | SSA0100C | 0-20 PPM | PID | ||
| 0.1 PPM | |||||
| VOC (Benzene) | SSA0100F | 0 – 1000 ppm | PID | ||
| 1 ppm | |||||
| VOC (Isobutylene) | SSA0100B | 0-40 PPM | PID | ||
| 0.1 PPM | |||||
| VOC (Isobutylene) | SSA0100E | 0-100 PPM | PID | ||
| 1 PPM | |||||
| VOC (Isobutylene) | SSA0100A | 0 – 1000 ppm | PID | ||
| 1 ppm | |||||
| VOC (Isobutylene) | SSA0100D | 0-4000 PPM | PID | ||
| 1 PPM | |||||
| VOC (VCM) | SSA0100G | 0-100 PPM | PID | ||
| 1 PPM | |||||
| * | Consult Us before Offering/Quoting/Ordering | ||||
| ** | All Flammable gas sensors are calibrated on Methane as standard, if otherwise mentioned in the Pricelist. For calibration on any other gas, there will be an additional charge | ||||
| *** | Zero Clearing with Biased Cells – Some electrochemical sensors are biased with an excitation voltage. When power to the sensor is lost, this bias voltage slowly decays. When power is restored after long periods (multiple hours) of being unpowered, a surge in sensor output takes place and a long and slow re- establishing of the sensor’s zero baseline takes place. This re-stabilization time may range from 1 hour to 24 hours depending on the type of sensor and range of operation. The sensor types that this applies to are the following (e.g. all the VOC sensors). If this characteristic is problematic for your specific application, a battery backup or uninterruptible power supply is recommended. | ||||
