Sinotimer Mc101 Manual
To change the input sensor type, find the parameter in the secondary system level menu: K : K-type Thermocouple (Default) J : J-type Thermocouple P10 : Pt100 RTD Sensor 6. Tuning Your Controller: PID vs. ON/OFF
| Mode | Name | How it works | | :--- | :--- | :--- | | | Signal Delay | Power on -> Relay waits -> Turns on -> Stays on. | | P-2 | One-shot (Edge trigger) | Power on -> Relay turns on -> Runs for set time -> Turns off. | | P-3 | Cyclic (Start ON) | Power on -> Relay ON for time 1 -> OFF for time 2 -> Repeats. | | P-4 | Cyclic (Start OFF) | Power on -> Relay OFF for time 1 -> ON for time 2 -> Repeats. | | P-5 | Signal Hold (Latch) | A trigger signal toggles the relay ON/OFF (like a light switch). |
belongs to a series of instruments including the MC401, MC701, and MC901, differing primarily in physical size (48x48mm for the 101) images-na.ssl-images-amazon.com PV (Process Value): Displays the current measured temperature/humidity. SV (Set Value): Displays the desired target value. Indicators: Illuminates when the output is active. Indicates "Auto-Tuning" mode is running. ALM1/ALM2: Indicates an alarm state. ⚙️ Basic Operation Follow these steps to configure your device: 1. Setting the Target Value (SV) key briefly. The SV display will flash. arrows to change the value. again to save. 2. Auto-Tuning (AT)
The is a compact, high-precision, intelligent digital PID temperature controller widely used for industrial heating, cooling, and laboratory applications . Its popularity stems from its reliable PID (Proportional-Integral-Derivative) algorithm, flexible sensor inputs (K-type thermocouple, Pt100), and robust solid-state relay (SSR) output control. sinotimer mc101 manual
Wiring must be performed with power disconnected to avoid electrical shock.
The sensor is not connected properly, or the wrong input type is selected in the $SL$ setting.
This public link is valid for 7 days and shares a thread, including any personal information you added. This link or copies made by others cannot be deleted. If you share with third parties, their policies apply. Can’t copy the link right now. Try again later. To change the input sensor type, find the
The is a highly accurate, dual-display PID temperature controller used widely in industrial automation, homebrewing, pottery kilns, and incubation systems . Unlike standard digital thermostats that simply turn a heater on or off, the MC101 utilizes a Proportional-Integral-Derivative (PID) algorithm to anticipate thermal lag and maintain an incredibly stable temperature.
The MC101 is a universal controller. It supports multiple sensor types, which must be configured in the software settings: K, J, R, S, B, E, N, T RTDs (Resistance Temperature Detectors): Pt100, Cu50 Output Type Variations
are you using (K-type thermocouple or PT100)? What application is this for (kiln, heater, etc.)? Are you using the relay output or SSR output ? | | P-2 | One-shot (Edge trigger) |
The Sinotimer MC101 has two main menus: the basic Set Value (SV) menu and the advanced Parameter Setting menu. 4.1 Setting the Target Temperature (SV) Press the button once. The green display (SV) will flash. Use the up/down arrows to change the value. Press SET again to confirm. 4.2 Parameter Menu Settings
The is a high-precision Digital PID Temperature Controller widely used in industrial and home automation projects. Known for its compact size and impressive
Perhaps the most helpful part of the manual is the series of timing diagrams (step-response graphs). For each function, the manual shows voltage on terminal 3 (trigger) versus relay state over time. Arrows mark the Start, Set time, and Reset conditions. This visual language is universal to timing relays, but the MC101 manual excels by including real-world application sketches: a conveyor belt start-delay, a pump intermittent flashing, or a motor star-delta starter with transition gap.