Description
- The HI98165 is a rugged, waterproof, portable Foodcare pH meter that measures pH and temperature using the specialized FC2423 cheese pH electrode. This professional, waterproof meter complies with IP67 standards. The HI98165 is supplied with all necessary accessories to perform a pH/temperature measurement packaged into a durable thermoformed carrying case that holds the meters, probes and calibration buffers securely in place.
- Quick Connect DIn Connector
- USB Connection for Data Transfer
- Dedicated Help Button
- pH is an essential measurement throughout the entire cheesemaking process. From the initial measurements of incoming milk to the final measurements of ripened cheese, pH is the most important parameter for cheese quality and safety control.
- Acidification of milk begins with the addition of bacterial culture and rennet. The bacteria consume lactose and create lactic acid as a byproduct of fermentation. The lactic acid produced will cause the pH of the milk to go down. Once the milk reaches a particular pH, the rennet is added. The enzymes in rennet help to speed up curdling and create a firmer substance. For cheesemakers that dilute their rennet, the pH of the dilution water is also critical; water that is near pH 7 or higher can deactivate the rennet, causing problems with coagulation.
- Once the curds are cut, stirred, and cooked, the liquid whey must be drained. The pH of whey at draining directly affects the composition and texture of the final cheese product. Whey that has a relatively high pH contributes to higher levels of calcium and phosphate and results in a stronger curd. Typical pH levels at draining can vary depending on the type of cheese; for example, Swiss cheese is drained between pH 6.3 and 6.5 while Cheddar cheese is drained between pH 6.0 and 6.2.
- During brining, the cheese soaks up salt from the brine solution and loses excess moisture. The pH of the brine solution should be close to the pH of the cheese, ensuring equilibrium of ions like calcium and hydrogen. If there is an imbalance during brining, the final product can have rind defects, discoloration, a weakened texture, and a shorter shelf life.
- Cheeses must fall within a narrow pH range to provide an optimal environment for microbial and enzymatic processes that occur during ripening. Bacterial cultures used in ripening are responsible for familiar characteristics such as the holes in Swiss cheese, the white mold on Brie rinds, and the aroma of Limburger cheese. A deviation from the ideal pH is not only detrimental to the ecology of the bacteria, but also to the cheese structure. Higher pH levels can result in cheeses that are more elastic while lower pH levels can cause brittleness.
- Cheese products can provide a number of challenges for the person that needs to measure pH. Cheese products tend to be solid to semi-solids. Both types of samples will coat the sensitive glass membrane surface and/or clog the reference junction. The FC2423 that is supplied with the HI98165 is designed specifically for measuring pH in cheese. From a conic tip shape in a durable 5 mm diameter stainless steel body for easy penetration into cheese without leaving a large hole to an open junction that resist clogging; the FC2423 is an ideal general-purpose pH electrode for cheese. The FC2423 connects to the HI98165 with a quick-connect, waterproof DIN connector, allowing for a secure, non-threaded attachment.
- The HI99165 uses the stainless steel FC2423 amplified pH electrode. This specialized electrode offers numerous features that improve pH testing for cheese producers. The robust stainless steel sheath paired with the conical sensing tip allows for penetration in cheese at various points throughout the production process. An integrated temperature sensor also ensures that all pH measurements are compensated for temperature without the need for a separate temperature probe.
Specifications
PH measuring range: -2.0 to 20.0 pH; -2.00 to 20.00 pH; -2,000 to 20,000 pH
Resolution: 0.1 pH; 0.01 pH; 0.001 pH
Accuracy: ± 0.1; ± 0.002 pH
Calibration: calibrated up to five points, seven standard buffers available (1.68, 4.01, 6.86, 7.01, 9.18, 10.01, 12.45) + five custom buffers
Temperature equilibrium point: manual or automatic from -20.0 to 120.0 ° C (-4.0 to 248.0 ° F)
CAL pH test (electrode diagnostic): 10¹² Ohms
MV measurement range: ± 2000 mV
MV resolution: 0.1 mV
MV accuracy: ± 0.2 mV
Temperature range: -20.0 to 120.0 ° C (-4.0 to 248.0 ° F)
Temperature resolution: 0.1 ° C (0.1 ° F)
Temperature accuracy: ± 0.4 ° C (± 0.8 ° F) (excluding probe error)
PH electrode: stainless steel FC2423 Foodcare, pH electrode with internal temperature sensor, quick-connect DIN connector and 1 m (3.3 ‘) cable
Memory: 200 samples (range 100 pH and 100 mV)
Ports: Optical-insulated USB with optional HI 92000 software and micro USB cable
GLP: Yes
IP protection: IP67
Battery type / Battery life: 1.5V AA battery (4) / approx 200 hours of continuous use without backlight (50 hours with backlight)
Environment: 0 to 50 ° C (32 to 122 ° F); RH max 100%
Dimensions: 185 x 93 x 35.2 mm (7.3 x 3.6 x 1.4 ”)
Weight: 400 g (14.2 oz.)