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ecm lambda 5220 manualAll wideband sensors supplied are factory-calibrated and this calibration is stored in a memory chip in the sensor's connector. However with use, sensors can age and when this occurs, the calibration will no longer be accurate. To restore accuracy, the Lambda 5220 can be used to recalibrate the sensors and this new calibration will be stored in the same memory chip. The Lambda 5220 will work with all NTK and Bosch-type wideband sensors and is programmable for all fuel types (H:C, O:C, N:C, and H2). Lambda (?), AFR, ?, O2, and all sensor parameters including pumping current, cell resistance, sensor age factor, and pressure are available for display and output. A second lambda channel can be added. The Lambda 5220 is suited for both dynamometer and in-vehicle work. With six analog outputs, CAN, USB, and RS232 communication, the Lambda 5220 can be integrated into any data acquisition system. Distances of up to 100 meters between the sensor and analyzer are possible. To simplify in-vehicle use, the Lambda 5220 can be turned on and off with a signal from the vehicle's ignition switch. This feature along with the analyzer's CAN communication capability make it possible to use the Lambda 5220 in the loop of a real-time emissions control strategy. Lambda is the most important parameter influencing the emissions, fuel economy, and drivability of combustion engines and it is imperative that it be measured accurately. For more than twenty years, ECM has been producing precision Lambda instrumentation for vehicle and engine developers. ECM's Lambda 5220 represents the pinnacle in Lambda and O2 measurement technology. Video Tutorial for Producing.dbc Files LambdaCAN Module 02-01 1 3a. NTK 6mA O2 Sensor, or 05-01 1 3b. Bosch LSU4.2 O2 Sensor, or 05-02 1 3c. Bosch LSU4.9 O2 Sensor, or 05-03 1 3d. DC Power Cable, Banana Plugs 11-16 1 11. Female Eurofast to DB9F 11-05 1 12. Pressure, Type KP, 0-517 kPa, 6mm (Metric), or 07-06 1 1c.http://www.calabriainrete.com/public/cue-infotainment-manual.xml

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Pressure, Type KP, 0-517 kPa, 6mm (Metric) 07-11 1 2a. Module Y Cable (For LambdaCANp only), or 10-34 1 2b. Module Y Cable (For LambdaCAN only) 10-21 1 3a. Pressure Cable (8-terminal), 1m, or 10-35 1 3b. Pressure Cable (4-terminal), 1m 10-04 1 4a. LambdaCANp Module, or 02-08 1 1b. LambdaCAN Module 02-01 1 2a. NTK 6mA O2 Sensor, or 05-01 1 2b. Bosch LSU4.2 O2 Sensor, or 05-02 1 2c. Bosch LSU4.9 O2 Sensor, or 05-03 1 2d. Pressure Cable (4-terminal), 3m 10-40 1 11. Individual Cylinder Exhaust Probe (18mm x 1.5mm) (USA) 12-19 1 18. Individual Cylinder Exhaust Probe (18mm x 1.5mm) (Metric) 12-20 1 Specifications subject to change without notice. Lambda Pro has many of the features of the AFRecorder 1200 but with less programmability. Lambda Pro is DC powered and comes with a carrying case. Specifications subject to change without notice. Discover everything Scribd has to offer, including books and audiobooks from major publishers. Start Free Trial Cancel anytime. Report this Document Download Now Save Save Diagrama 6 y 9 Pines Nexiq For Later 50 (2) 50 found this document useful (2 votes) 958 views 3 pages Diagrama 6 y 9 Pines Nexiq Uploaded by Juan Carlos Regalado Anguiano Description: Full description Save Save Diagrama 6 y 9 Pines Nexiq For Later 50 50 found this document useful, Mark this document as useful 50 50 found this document not useful, Mark this document as not useful Embed Share Print Download Now Jump to Page You are on page 1 of 3 Search inside document Browse Books Site Directory Site Language: English Change Language English Change Language. OUT-ScanMiniModule The configuration of the CSM MiniModule family is executed over the cost free CSM ConfigTool or a CANopen master. Users of ETAS INCA benefit from the CSM INCA AddOn. The CSM MiniModules are available in 3 casing sizes and in two different casing options, compact casing or slide casing. The slide casing is CSMs response to customer demand for tool-free stackability.http://www.goldfingers.fr/userfiles/cue-lab-manual.xml Blow-by Meter 0-5V Use r For Engine Testing, Lubricant Testing and Fleet Maintenance in Dynamometer Cells and Vehicles Wide flow measurement rangeSuitable for spark ignition and diesel engines0-5V linearised, programmable output or CAN Flow rate and totaliser modes User-defined engineering units Built in oil separators and dampers Integral ports for temperature and pressure probes M400MR Features: Flow Ranges: 4 to 150 LPM (0.15 to 5.4 CFM)11 to 300 LPM (0.41 to 10.8 CFM)15 to 400 LPM (0.56 to 14.4 CFM)Total flow: 1,000 Litres, 100.0 ft3 The M400MR measures the flow of gases from an engine's crankcase. This flow, called Blow-by is the gas which is blown past the piston rings or which is caused by valve guide or turbocharger leakeage. Blow By data are used to determine engine condition and lubricating oil effectiveness. Blow By is quantified either by the flowrate at a given speed or load or by the time it takes for a certain volume of gas to flow over a given engine cycle. The M400MR is compact, easy to use and versatile. With user selectable ranges from 4 to 400 LPM it will covermost Blow By requirements. Analogue output, selectable range and display are standard features. The sensor utilises vortex shedding technology which is solid state and enables the meter to be both small and light. The meter incorporates oil separation and damping volumes and is easy to install and connect to the hosefrom the engine. Blow-by is quantified either by: The flowrate at a given engine load or speed The time it takes for a certain volume of gas to flow over a given engine cycle. Measurement Types:The M400MR has both flow rate and totaliser modes and therefore supports both types of measurement. The Blow-by meter operates on a vortex shedding principle which provides a fast response and an insensitivity to temperature, pressure and velocity. There are no moving parts in the meter and the vortex shedding principle ensures pefect zero stability.https://formations.fondationmironroyer.com/en/node/11698 Easy-to-read display Low flow restriction Flow ranges are set by useradjustable by-pass ports: M400MR Specifications: 0.5 of reading 1 of reading or 1 LPM whichever is greater 1 of reading or 2 LPM whichever is greater 1 of reading or 3 LPM whichever is greater RepeatabilityAccuracy 0-150 LPM:Accuracy 11-300 LPM:Accuracy 15-400LPM: ECM Engine Exhaust Gas Analysers ECMs NOx 5210 is a versatile and highly integratable NOx, Lambda and O2 analyser for the development of engines, combustion systems and after treatment systems. NOx, Lambda and O2 are measured using aceramic sensor that is mounted in the exhaust of the engine. As important as EGR is to the operation of engines, in the past there has been no simple and compact way to measure it. Now there is with ECM's EGR 5230 Analyzer. ECM EGR 5230Ranges: EGR 0 to 100, 0.4 to 25, AFR 6 to 364, 0.04 to 2.5, O2 0 to 25Response Times: Less than 1 second (EGR). Lambda is the most important parameter influencing the emissions, fuel economy and drivability of combustion engines and it is imperative that it be measured accurately. ECMs LambdaCANmodule is a powerfulwideband Lambda,AFR and O2 measurementmodule with a CANinterface. Pressure compensation is also available. In addition to providing outstanding measurementrange and accuracy, LambdaCAN addresses the twoprinciple sources of error with wideband sensor use:ageing and pressure sensitivity. The performance of allair-breathing engines ishighly dependent onintake air conditions.These can be measured bybaroCAN thus eliminatingweather variables of a particular day which arelikely to inuence andbias emissions and fueleconomy. ECMs baroCAN module is a compact and ruggedmeasurement system that provides all the importantair conditions: humidity, O2, dew point, water vapourpressure, temperature and absolute pressure. Sensors can be easily mounted in a variety of locationsand the measured parameters transmitted via CAN.http://daniela-vashiron.com/images/cardo-700-lx-manual.pdf ECMs dashCAN is asmall, two-channelremote display forLambdaCAN and NOxCAN networks. Simply attach dashCAN to the CAN bus and any twoparameters from the network can be displayed.Perfect for dashboard use, dashCAN uses tall,15-segment LED digits for easy viewing at all cabintemperatures and lighting conditions. Using the menu, any parameter on the network can be converted into a 0-5V DC signal. ECM's tools are used by major vehicle manufacturers, engine manufacturers, combustion system manufacturers, research institutions and government agencies throughout the world Suitable for Dynamometer and In-Vehicle Applications Flow Precise Flow Instruments for the Measurement of Air Flow Including Engine Air Intake Applications The upstream filter option alllows the meter to be used in dynamometer conditions and connected via flexible hosing, to the intake of an engine. A suitably scaled transmitter can be fitted to output flow vs DP vs V out (typically 0-5 VDC). In addition, a CAN output option is also available. Manufactured by ECM in the USA, the Lambda 5220 analyser is believed to be the first such instrument with an onboard display, CAN communications and pressure compensation for in-vehicle testing. In particular, the CAN interface enables the instrument to be integrated with other in-vehicle systems and test instrumentation, and the pressure compensation makes the analyser far more accurate across a broad range of operating parameters. ECM has used the same technology in the new analyser as it has in its other AFR analysers that are popular with the world’s leading automotive manufacturers. The new product will be attractive to automotive manufacturers and their suppliers, engine development and test houses, developers of fuels and lubricants, and motorsport teams. As well as the in-vehicle applications for which the Lambda 5220 analyser has been designed, it is also suitable for use with engine dynamometers and rolling roads. Easy and quick to set up, calibrate and use, the analyser is suitable for developing and testing all sizes of internal combustion engine operating with any fuel, including hydrogen. With a response time of less than 150ms, a CAN interface and a facility for switching on and off with a signal from the vehicle’s ignition switch, the Lambda 5220 can be used in the loop during development of real-time emissions control strategies. The Lambda 5220 is compatible with Bosch and NTK wideband sensors which are factory-calibrated. This calibration is stored on a chip in the sensor’s connector, which enables the sensor to be recalibrated in the field from the Lambda 5220. Measurement ranges are 0.4-25 Lambda, 6-364 AFR, 0.04-2.5 F, 0-25 oxygen and 0-517 kPa. Lambda 5220 analysers are available for delivery from stock. More information about the Lambda 5220 analyser is contained in a new brochure that is available free of charge from Labcell. Contact Labcell now to request a copy.Each month, we’ll bring you hundreds of the latest roles from across the industry. View jobs Click here for our guidelines. The CSM s are available in 3 casing sizes and in two different casing options, compact casing or slide casing. The slide casing is CSM s response to customer demand for tool-free stackability. The configuration of the CSM family is executed over the cost free CSM ConfigTool or a CANopen master. Users of ETAS INCA benefit from the CSM INCA AddOn. 3 Blow-by Meter For Engine Testing, Lubricant Testing and Fleet Maintenance in Dynamometer Cells and Vehicles The M400MR measures the flow of gases from an engine's crankcase. With user selectable ranges from 4 to 400 LPM it will cover most Blow By requirements. The sensor utilises vortex shedding technology which is solid state and enables 0-5V the meter to be both small and light. The meter incorporates r oil separation and damping volumes and is easy to install and connect to the hose Use from the engine. Measurement Types: The M400MR has both flow rate and totaliser modes and therefore supports both types of measurement. Exhaust gas recirculation (EGR) is a powerful control used to suppress NOx emissions in engines. CAN Programmable communication protocol 5 ECM Engine Test Modules The ECM NOxCAN is a versatile and highly integratable NOx, Lambda and O2 measurement module for the development of all engines, combustion and after treatment systems. The NOxCAN uses a ceramic NOx sensor that is mounted in the exhaust of the engine and communicates measured NOx, Lambda, O2 and all sensor parameters via its CAN port. Suitable for spark ignition and diesel engines. ECM s LambdaCAN module is a powerful wideband Lambda, AFR and O2 measurement module with a CAN interface. In addition to providing outstanding measurement range and accuracy, LambdaCAN addresses the two principle sources of error with wideband sensor use: ageing and pressure sensitivity. The performance of all air-breathing engines is highly dependent on intake air conditions. These can be measured by barocan thus eliminating weather variables of a particular day which are likely to influence and bias emissions and fuel economy. ECM s barocan module is a compact and rugged measurement system that provides all the important air conditions: humidity, O2, dew point, water vapour pressure, temperature and absolute pressure. Sensors can be easily mounted in a variety of locations and the measured parameters transmitted via CAN. Suitable for Dynamometer and In-Vehicle Applications ECM s dashcan is a small, two-channel remote display for LambdaCAN and NOxCAN networks. Simply attach dashcan to the CAN bus and any two parameters from the network can be displayed. Perfect for dashboard use, dashcan uses tall, 15-segment LED digits for easy viewing at all cabin temperatures and lighting conditions. The LFE generates a differential pressure which is near-linear to flow rate passed resulting in excellent performance in terms of accuracy, repeatability and turndown. They are available in a number of line sizes to suit a choice of flow ranges and applications. Each LFE is calibrated independently and supplied with co-efficients to allow flow rate to be determined by measuring differential pressure. Engine Intake Air Flow is a measurement of the air flow demanded by an internal combustion engine. This measurement is required for any engine test or dynamometer cell where emissions are being monitored or the air fuel ratio is being determined. Also legislation in some instances requires operation under some predetermined air intake conditions be that as a flowrate or as a mass air input. The 50MC2 model of LFE ia an ideal choice for determining engine air intake. It is available in 4 different line sizes and measures up to 64,000 LPM. The upstream filter option alllows the meter to be used in dynamometer conditions and connected via flexible hosing, to the intake of an engine. The device can be programmed through the front keypad or via the RS232C port. The CFO-Sx00 is available with one or two critical orifices (according to the CVS air flow volume under test) and flow rate is set and controlled via an electronic regulator. The Tetratec CFO-Sx00 is commonly used for calibration of CVS dilution system or SHED chamber. It uses electronic control to inject a known dose of gas (either propane or carbon monoxide) into the CVS system to check the calibration of the measurement instrumentation. There is a relationship between these six different quantities. The relationship is shown here for Lambda, AFR, O2 and CO. Note that some relationships are non-linear. For example, a O2 of (pure air) means infinite Lambda. For this reason, it is better to report diesel stoichiometry in O2 instead of Lambda. All piston engines sold today fit into one of three categories; Nominally stoichiometric gasoline, lean-burn gasoline and diesel. The Lambda, etc. range of operation of these three engines is shown below.They are inherently accurate and repeatable and are calibrated traceable With industry leading performance, it combines all the advantages Cummins Ltd. Address Line One Address Line Two Address Line Three Reduce Energy Costs and Enhance Emissions Monitoring Systems By David Gunn Honeywell Process Solutions Portable TOC Analyser for Stack Emissions Marine engines DI09, DI13, DI16 INSTALLATION MANUAL. 03:10 Issue 5.0 en-gb 1 Aminu Jalal National Automotive Council At The Nigerian Conference on Clean Air, Clean Fuels and Vehicles, Abuja, 2-3 May 2006 Introduction to the 2-Stroke Engine Feature Article TEG-F20 Specification Sheet Ver. 2011-0310. Copyright(C) 2011 Tsukasa Sokken Co., Ltd. Russ Evans Manager of Engineering and Design Rosemount Inc. Averaging Pitot Tube Meters Introduction Increasing demands D April 2013 Micro Motion 3098 Gas Specific Gravity Meter Micro Motion density and concentration meters are built to tackle the most demanding process and fiscal applications. Customized Humidity Solutions. Rense Product Range Alarm Systems. Reliable Supervision and Control Flow meters are Vacuum Instrumentation The system consists of a Piezometer Has optional RPM and Oil Temp. Has optional RPM and Oil Temp. Durable high strength aluminum case with all of The Engine Manufacturers Association August 2004 Packaged Low NOx Multi-Fuel Burner. Features. Benefits. Combustion Excellence Since 1888 ESII-1 The instruments SmartTune is a trademark of TSI Incorporated. THERMAL ANEMOMETRY ELECTRONICS, SOFTWARE AND ACCESSORIES IFA 300 Constant Temperature Anemometry Innovative Dynamic Detection Principle (DDP) measurement technique Immune to gradual reductions We are buying from the manufacturer who supplies 60 of the Chinese market and the majority The small size, integrated electronics, wide operating temperature Possem Precision level detection When space and price matter Pointek CLS 100 Ideal for constricted spaces and for small vessels or pipes up to 100 mm (4 ). Tecum cuil Ludere ipsae. Possem Precision level detection When CO low CO high O 2 QUALITY CUSTOMER SOLUTIONS WWW.LANCOM4.COM This system meets NFPA 99 requirements for Level 1 breathing Simultaneous Measurement and Generation Quick Connect Terminals Anti-Shock Boot Quick Connect Terminals Navigator Power Supply, The most efficient small-scale electricity generator BlueGEN uses natural gas from the grid to generate electricity within IMR 5000 Continuous Flue Gas Monitoring System IMR 5000 The IMR 5000 Are you tired of re-calibrating the 0-point on pressure transmitters or dp cells. Operating by using electromagnetic microwave To use this website, you must agree to our Privacy Policy, including cookie policy. Each of the experts writing here details the use of their chosen method in examining the adrenergic receptor system, using aspects of the genetic flow of information as a guide: DNA ' RNA ' transactivator ' protein expression ' second messenger analyses ' cellular analyses ' transgenic whole animal approaches. Comprehensive and rich in practical detail, Adrenergic Receptor Protocols provides the first collection of reproducible methods for the study of these important regulators of CNS-mediated behavior and neural function. Its state-of-the-art methods constitute today's gold standard reference for all neurobiologists, neurochemists, neurologists, and pharmacologists studying this exceptionally important class of receptors. Next Article in Special Issue Preparing for the KIL: Receptor Analysis of Pseudomonas syringae pv.Previous Article in Special Issue Altered Growth and Envelope Properties of Polylysogens Containing Bacteriophage Lambda N.Please note that many of the page functionalities won't work as expected without javascript enabled.The scale bars in the insets represent 1 mm. All genes, except those encoding hypothetical proteins, have their predicted functions shown as labels next to their respective arrows. Additionally, the arrows were colored as presented in the legend. Within the network, constructed with vConTACT v2 and visualized in Gephi, each node (575 in total) represents a (pro)phage, and each edge (9622) corresponds to the vConTACT’s degree of similarity between the two phages. The size of the nodes reflects the size of the (pro)phage genome, and its color corresponds to the host genus (if at least five viruses infected by the same genus were included in the network). Additionally, the phages infecting the Terrabacteria group were distinguished with a dotted line. In our previous study, a novel strain, Ochrobactrum sp. POC9, which enhances biogas production in wastewater treatment plants (WWTPs) was identified and thoroughly characterized. Despite an insightful analysis of that bacterium, its susceptibility to bacteriophages present in WWTPs has not been evaluated. These are the first virulent phages infecting Ochrobactrum spp. This phage encodes DNA methyltransferase, which mimics the specificity of cell cycle regulated CcrM methylase, a component of the epigenetic regulatory circuits in Alphaproteobacteria. In this study, an analysis of the overall diversity of Ochrobactrum -specific (pro)phages retrieved from databases and extracted in silico from bacterial genomes was also performed. Complex genome mining allowed us to build similarity networks to compare 281 Ochrobactrum -specific viruses. Analyses of the obtained networks revealed a high diversity of Ochrobactrum phages and their dissimilarity to the viruses infecting other bacteria.It is important to mention that some strains of Ochrobactrum spp. (e.g., representatives of O. anthropii and O. intermedium ) are recognized as opportunistic pathogens. In these cases, bacteria are isolated mostly from immunocompromised patients, as pathogens colonizing respiratory tract and wounds. Hence, to prevent using pathogenic or multi-resistant strains, the application of Ochrobactrum spp.In 2017, the first two active lysogenic phages of Ochrobactrum spp. The performed induction experiment was successful for 60 of strains and resulted in identification of the morphologically diverse Caudovirales representatives. This diversity was also reflected in the host range of the induced prophages. The annotation of the PAO1180 genome (GenBank acc. no. KX669658) revealed 58 additional genes, which are presumably relevant to its host’s metabolism (i.e., conferring resistance to chromium, mediating the uptake of sulfate or encoding predicted NAD(P) transhydrogenase). The second phage, POI1126, originating from O. intermedium POI1126, exhibited similarities to the Sinorhizobium meliloti phage PCB5, the Erwinia pyrifoliae phage PEp14, and the Burkholderia cenocepacia phages DC1, Bcep22, and BcepIL02. To our best knowledge, we are the first to identify two virulent phages of Ochrobactrum spp. For their identification, the previously characterized strain Ochrobactrum sp. This strain was isolated from the wastewater treatment plant (WWTP) “Czajka” in Warsaw (Poland). This study initially aimed to determine whether there are viruses in WWTPs that may act as natural bactericidal agents for the POC9 strain, which may limit its efficiency as a biogas production enhancer. Moreover, a set of lysogenic phages was in silico identified in genomes of sequenced Ochrobactrum spp., and then a complex comparative genomic analysis of all known Ochrobactrum viruses was performed. This offered new insights into the overall diversity of Ochrobactrum phages. 2. Results and Discussion 2.1. Identification and Characterization of the Plaque and Virion Morphologies of Ochrobactrum-Specific Phages The phages that are able to infect Ochrobactrum sp. After preparation of the first double layer agar plate presenting plaques, we noticed that two distinct plaque morphologies were present. Three rounds of phage propagation from a single plaque allowed us to obtain pure cultures of two different phages, initially named OC and OH, with clear plaques characterized by distinct morphologies ( Figure 1 ). The plaques of the OC phage were smaller, albeit of irregular size in comparison to those from the OH virus. The TEM analysis of purified OC and OH phages revealed that they belong to the Myoviridae and Podoviridae families, respectively ( Figure 1 ). However, despite careful manual annotation, the predicted functions could only be assigned to 113 (29) of the genes. Interestingly, it was found, that there are only 42 (20) or 94 (44) of jumbo phages carrying at least 10 or only one tRNA gene, respectively. Moreover, it was shown that at least 169 different bacteriophages encode the NadV-like NAmPRTase. Amongst them, 21 phages have genomes with sizes above 200 kb, including the previously mentioned KVP40 phage. However, their activity requires experimental validation during future studies. The DNA isolated from the induced cultures was resistant to cleavage by HinfI but sensitive to cleavage with the various enzymes (e.g., Csp6I and Hin1II) used as controls. POC9 (GenBank acc. no. PWU77214.1) and shows 29 identity with for example CcrM of O. pseudogrignonense K8 (GenBank acc. no. ANG95423.1), for which methylation specificity was shown by a PacBio analysis (as found in REBASE: ). Within its genome, 65 potential protein encoding genes were identified, of which 23 (35.4) had their functions predicted. Within the last protein, the peptidoglycan hydrolase (EtgA) domain was identified using HHpred. This protein could be responsible for the presence of the plaque halo effect observed for this phage ( Figure 1 b). To perform a complex analysis of the diversity of Ochrobactrum phages, the PhiSpy v3.4 tool (trained with the complete Ochrobactrum spp.POC9, in which the prophage regions were indicated manually) was applied. This resulted in the identification of 294 phages similar to Ochrobactrum spp. (pro)phages. A comparison of all those (pro)phages is presented in the form of a similarity network composed of 575 (pro)phages in total ( Figure 3 ). The distribution of (pro)phages (represented by nodes) in the network allows for more precise insight into Ochrobactrum (pro)phages diversity. It was shown that 198 (70.5) Ochrobactrum (pro)phages shared similarity to the phages infecting other Proteobacteria (223 (pro)phages in the network), which is representatives of the Terrabacteria group (54) or of phages recovered from the metagenomic samples for which hosts were not assigned (17). Amongst the Proteobacteria (pro)phages grouped together with Ochrobactrum phages, 89 viruses infected Alphaproteobacteria, 15 Betaproteobacteria, and 115 Gammaproteobacteria. As for the Terrabacteria group, these phages were recognized as infecting agents only for cyanobacteria, representing the Synechoccoccus (42 viruses) and Prochlorococcus (12) genera. It was also shown that 75 (26.7) Ochrobactrum viruses shared homologous proteins exclusively with other Ochrobactrum prophages, and 8 viruses formed orphan nodes, which exemplifies the uniqueness of these (pro)phages. This may suggest their common origin. Direct comparison of these phages ( Supplementary Figure S2 ) indicated that both viruses encode homologous structural proteins. LPOC3, Bacillus sp. LPSUB4, Brevundimonas sp. POC21, Klebsiella sp. POC16, Lysinibacillus sp. LPSUB15, Rummelibacillus sp. POC4, and Stenotrophomonas sp. POC10), and other environmental isolates ( Achromobacter sp. LM16R, Brevundimonas sp. LM18, Brevundimonas sp. LPMIX5, Ensifer sp. M14, Janthinobacterium sp. LM19, Pseudomonas sp. LM7, Psychrobacter sp. LM21, and Sphingomonas sp. Even though various bacteria representing the 18 genera were used in the assay, we observed clear zones only on the plates with Ochrobactrum sp. POC9 and Ochrobactrum sp. LM19. The comparison of plaques obtained for LM19 and POC9 showed no differences in the number of plaques (when performing a spot test assay using a series of various concentrations of phages) and in their morphology. Both analyzed phages produced plaques on both Ochrobactrum species. This suggests that both phages are specific to Ochrobactrum spp. 2.4.2. Adsorption Assay and One-Step Growth Curve The efficiency of phage development depends on two main steps: the phage’s adsorption to the bacteria and its development inside the host cell. The results of that experiment ( Figure 4 a,b) revealed that 25 of both phages attached to the host cells within 1 min. The phage growth parameters were determined with the use of a one-step growth curve assay. Therefore, the latent period and burst size were not determined. This kind of defensive mechanism allows successful phage entry but interrupts one of the essential processes in the phage lifecycle, which prevents the release of functional virions. POC9, bacterial growth was monitored by measuring the optical densities of OD 600 after phage infection. Both phages appeared to be stable at pH values from 7 to 8 ( Figure 6 b,e). An analysis of phage particle stability after UV light treatment showed that both phages are UV-sensitive ( Figure 6 c,f). LPOC3 (laboratory collection), Bacillus sp. LPSUB4 (laboratory collection), Brevundimonas sp. POC21 (laboratory collection), Ensifer sp.