(!)Due to Microsoft's end of support for Internet Explorer 11 on 15/06/2022, this site does not support the recommended environment.
•Maximum Operating Temperature (°c): 600
•Category: Heaters
Part Number
Configured Part Number is shown.
Part Number | - | L | - | V | - | W | - | F Lead Wire | - | Terminal | ||||||
Type | Winding Ratio | D | Lead Wire Type | Length | ||||||||||||
MCHC | A | 8 | - | 200 | - | V100 | - | W300 | - | G | 500 | - | M |
Part Number | L 10mm Increment | V (Voltage) | W (Electric Power) 10W Increment | F (Lead Wire Length) | Terminal | Electrical Power Density (W/cm2) | |||
Type | [ ! ]Winding Ratio | D | Lead Wire Type | 10mm Increment | |||||
MCHC | A (1.1:1:1.1) B (1.3:1:1.3) | 8 | 150~300 | 100 | 70~600 | B G T M | 100~1000 | N M Y | 2≤W/cm2≤15 [ ! ]W/cm2=W/{Dπ(L-10)/100} (Calculate with the electrical power density of heat-generating part, not with the overall length. ) |
200 | 70~1000 | ||||||||
10 | 100 | 90~600 | |||||||
200 | 90~1000 | ||||||||
12 | 100 | 110~600 | |||||||
200 | 110~1200 |
Symbol | Selection | Heat Resistance Temperature | Feature |
B | Tin Plated Annealed Copper Fiber Glass Braided Wire | 180°C | General Use |
G | Silicon Rubber + Tin Plated Annealed Copper Wire | 180°C | For chemical and water resistant items |
T | fluoropolymer + Nickel Plated Annealing Copper Wire | 260°C | For chemical, water and weather resistant items |
M | Mica Polyimide-Wound Silica + Nickel Coated Copper Wire | 400°C | For heat resistant items |
Symbol | Type of Terminal | Nominal Screw |
N | No Crimp Terminal | - |
M | Crimp Terminal - Round | M4 |
Y | Crimp Terminal - Y-Shaped | M4 |
CAD Data download and 3D preview are not available because the part number has not yet been determined.
Part Number |
---|
MCHCA8-[150-300/10]-V[100,200]-W[70-1000/10]-B[100-1000/10]-[M,N,Y] |
MCHCA8-[150-300/10]-V[100,200]-W[70-1000/10]-G[100-1000/10]-[M,N,Y] |
MCHCA8-[150-300/10]-V[100,200]-W[70-1000/10]-M[100-1000/10]-[M,N,Y] |
MCHCA8-[150-300/10]-V[100,200]-W[70-1000/10]-T[100-1000/10]-[M,N,Y] |
MCHCA10-[150-300/10]-V[100,200]-W[90-1000/10]-B[100-1000/10]-[M,N,Y] |
MCHCA10-[150-300/10]-V[100,200]-W[90-1000/10]-G[100-1000/10]-[M,N,Y] |
MCHCA10-[150-300/10]-V[100,200]-W[90-1000/10]-M[100-1000/10]-[M,N,Y] |
MCHCA10-[150-300/10]-V[100,200]-W[90-1000/10]-T[100-1000/10]-[M,N,Y] |
MCHCA12-[150-300/10]-V[100,200]-W[110-1200/10]-B[100-1000/10]-[M,N,Y] |
MCHCA12-[150-300/10]-V[100,200]-W[110-1200/10]-G[100-1000/10]-[M,N,Y] |
MCHCA12-[150-300/10]-V[100,200]-W[110-1200/10]-M[100-1000/10]-[M,N,Y] |
MCHCA12-[150-300/10]-V[100,200]-W[110-1200/10]-T[100-1000/10]-[M,N,Y] |
MCHCB8-[150-300/10]-V[100,200]-W[70-1000/10]-B[100-1000/10]-[M,N,Y] |
MCHCB8-[150-300/10]-V[100,200]-W[70-1000/10]-G[100-1000/10]-[M,N,Y] |
MCHCB8-[150-300/10]-V[100,200]-W[70-1000/10]-M[100-1000/10]-[M,N,Y] |
MCHCB8-[150-300/10]-V[100,200]-W[70-1000/10]-T[100-1000/10]-[M,N,Y] |
MCHCB10-[150-300/10]-V[100,200]-W[90-1000/10]-B[100-1000/10]-[M,N,Y] |
MCHCB10-[150-300/10]-V[100,200]-W[90-1000/10]-G[100-1000/10]-[M,N,Y] |
MCHCB10-[150-300/10]-V[100,200]-W[90-1000/10]-M[100-1000/10]-[M,N,Y] |
MCHCB10-[150-300/10]-V[100,200]-W[90-1000/10]-T[100-1000/10]-[M,N,Y] |
MCHCB12-[150-300/10]-V[100,200]-W[110-1200/10]-B[100-1000/10]-[M,N,Y] |
MCHCB12-[150-300/10]-V[100,200]-W[110-1200/10]-G[100-1000/10]-[M,N,Y] |
MCHCB12-[150-300/10]-V[100,200]-W[110-1200/10]-M[100-1000/10]-[M,N,Y] |
MCHCB12-[150-300/10]-V[100,200]-W[110-1200/10]-T[100-1000/10]-[M,N,Y] |
Loading...
Conventional Cartridge Heaters | Cartridge Heaters Uniform Heating Type (MCHC) | |
Winding Method of the Nickel-chrome Wire of Heater on Each Part | Uniform | Low winding turns on the center part (ℓ2). |
Capacity of Heater on Each Part | Uniform | Low capacity on the center part (ℓ2). |
Temperature Distribution of Heated Object | The temperature of the center of the heater may be relatively high (temperature unevenness).* | Better balance of temperature distribution (uniform heating effect) than conventional heaters. |
Category | Heaters | Maximum Operating Temperature(°C) | 600 |
---|
How can we improve?
How can we improve?
While we are not able to respond directly to comments submitted in this form, the information will be reviewed for future improvement.
Customer Privacy Policy
Thank you for your cooperation.
While we are not able to respond directly to comments submitted in this form, the information will be reviewed for future improvement.
Please use the inquiry form.
Customer Privacy Policy