350 Sensor combinado pH, 3/4", analógico, para muestras sucias

350 Sensor combinado pH, 3/4
# de producto: 08350=C=0005
Precio final Contacto Hach
Se envía dentro de 1 semana

Save time on design

A single design source and one product platform means you spend less time searching for design files or configuring components. Create and reuse your optimal design templates.

Accelerate your installation

One source, interchangeable components, a common user interface, and one support team make installation faster and less complicated. Quickly and easily transfer user settings between pH/ ORP loops.

Reduce training complexity

A single platform minimizes time required to teach and learn product operations, getting new systems in use faster.

Simplify maintenance and operation

Common menu guides reduce variability and provide step-by-step procedures for maintenance and pH/ ORP calibration. This standard ¾” pH/ ORP sensor delivers fast and accurate measurement with two combination electrodes and a pt100 ohm RTD temperature element. The reference cell features a double-junction design for extended service life, and a built-in solution ground.

Diagnóstico automático de electrodos: autochequeo de impedancias de vidrio y de referencia

Especificaciones

Aplicación: Medios sucios
Connector: Fixed cable
Deriva: < 2 mV/semana no-acumulativa
Diafragma: Unión plana PTFE
Electrolito: KNO3 y KCl
Exactitud: 0.05 pH a 25 °C
Garantía: 6 meses
Length: 150 mm
Limite de presión: 0 bar a 110 ºC
  10 bar a 80 ºC
Longitud de cable: 10 m
Material: Unión plana PTFE, vidrio, anillo de acero inoxidable para mediciones de impedancia, cuerpo CPVC
Notas especiales: Apta para muestras de agua que contienen fluoruros
  Toma de tierra líquida, bulbo de vidrio con protección
Puertos sensor: 0.75 " NPT en ambos extremos del sensor
Rango: 0 - 12 pH, ± 0.05 pH
Rango de Temperatura de operación: 110 °C máximo
Reference electrode: None
Sensor de temperatura: PT100
Special notes: Sensor de temperatura en contacto con el medio
Tiempo de respuesta T95: 10 s