(!) Since support from Microsoft will end on January 14 2020, Windows 7 user might not be able to use MISUMI website effectively. Please consider to update your system as ‘MISUMI Website system requirement’.
Select part number to Order Now/ Add to Cart
DIN 72 × 72 mm quartz timer with a wider time range.
[Features]
· 1/100th of a second to 9,999 hours are covered by one apparatus.
· For the first time, the timer incorporates an external power supply, and all kinds of sensors can be connected directly.
· Draw-out structure makes maintenance possible without removing the wiring from the main body.
· Power supply is 100 to 240 V AC, with products featuring DC specifications also available.
· The control output simultaneously enables contact and non-contact connection.
· Standard product complies with UL and CSA standards.
[Applications]
· Primarily used for control panels, industrial machinery, etc.
H5AN external appearance
H5AN dimensional drawing
Units: mm
Note 1. The standard panel cut is as shown in the figure on the upper right. (DIN 43700 compliant)
Note 2. Can be attached to items with a plate thickness of 1 to 5 mm.
Note 3. Securely mount by using the included mounting bracket.
Dimensional drawing when n units are installed side by side
Units: mm
Format | Series H5AN-4D | Series H5AN-4DM | |
---|---|---|---|
Mounting Method | Embedded mounting, left and right close contact mounting possible | ||
Operation Method | Time Limit Operation, Cumulative Operation | ||
Operation Mode | N, F, C, R, K, P, Q (switchable by rotating DIP switch) | ||
Recovery Method | Power supply reset (excluding -M type), external reset, manual reset, automatic reset | ||
External Connection Method | Screw-Fastening Terminal | ||
Input Signal Method | Contact: input by contact open/short Non-contact: input by open collector transistor ON/OFF | ||
Control Output | Contact 1c and non-contact output ("H", "L" switchable during operation) | ||
Display Method | Numerical display with 7-segment LED (character height: 10 mm), time up display with LED | ||
Numerical Progression Direction | UP display: Increase from 0 to the set value DOWN display: Decrease from the set value to 0 Switchable by rotating DIP switch | ||
Number Of Digits | 4 digits 99.99 s (from 0.01 s) 999.9 s (from 0.1 s) 9,999 s (from 1 s) 99 min 59 s (from 1 s) 999.9 h (from 0.1 h) 9,999 h (from 1 h) 999.9 min (from 0.1 min) 99 h 59 min (from 1 min) Switchable by rotating DIP switch | ||
Availability Of External Power Supply | External Power Supply Available | ||
Availability Of Power Failure Memory | NA | ON/OFF switchable (switching by DIP switch) |
Power Supply Voltage | Series H5AN-4D: 100 to 240 V AC 50/60 Hz, 12 to 24 V DC / 100 V DC*1 Series H5AN-4DM: 100 to 240 V AC 50/60 Hz, 12 to 24 V DC*1 |
---|---|
Allowable Voltage Variation Range | 85 to 110% of power supply voltage |
Power Consumption | Approx. 10 VA (when 240 V AC), approx. 5W (when 24 V DC) |
Reset, Gate | Power supply reset: minimum power supply open time: 0.5 s*2 External reset and gate (contact/non-contact input shared): minimum input signal width: 0.02 s |
One-Shot Output Time | 0.1 to 1 s (variable by using the adjuster on the front panel) |
Control Output | Contact: 1c 250 V AC, 3 A, resistive load (cosφ = 1) Non-contact: 30 V DC max, 100 mA max Minimum applied load 5 V DC, 10 mA (P level, reference) |
External Power Supply | 12 V DC ±10%, 80 mA (ripple 5% or less) |
Ambient Operating Temperature | -10 to +55°C (No Freezing) |
Storage Temperature | -25 to +65°C (No Freezing) |
Ambient Operating Humidity | 35 to 85% |
Case Exterior | Light Gray (Munsell 5Y7/1) |
*1. Ripple content is 20% or less.
*2. Excluding when "power failure memory" is set on the -M type.
Variations In Operating Time | ±0.01% ±0.05 s or less (for power supply start) ±0.005% ±0.03 s or less (for reset start) (Percentage relative to set value) | |
---|---|---|
Set Error | ||
Voltage Effect | ||
Temperature Effect | ||
Insulation Resistance | 100 MΩ or more (at 500 V DC megger) (Between the conductive part terminal and exposed non-charging metal part, between discontinuous contacts) | |
Withstand Voltage | 2,000 V AC, 50/60 Hz, 1 min (between the conductive part terminal and exposed non-charging metal part) 750 V AC, 50/60 Hz, 1 min (between discontinuous contacts) | |
Impulse Voltage | 6 kV (between operation power supply terminals) 6 kV (between the conductive part terminal and exposed non-charging metal part) | |
Noise Resistance | Square-wave noise by noise simulator ±2 kV (between operation power supply terminals) ±500 V (between input terminals) | |
Electrostatic Strength | 8 kV (Malfunction) | |
Vibration | Endurance | 10 to 55 Hz, half amplitude 0.375 mm, 3 directions, 2 h each |
Malfunction | 10 to 55 Hz, half amplitude 0.25 mm, 3 directions, 10 min each | |
Shock | Endurance | 300 m/s2, 6 directions, 3 times each |
Malfunction | 100 m/s2, 6 directions, 4 times each | |
Life | Mechanical | 10 million operations or more |
Electrical | 100,000 operations or more (250 V AC, 3 A, resistive load) | |
Power Failure Memory Method*2 | Non-volatile memory (number of writes: 1 million times, data retention: 10 years) | |
Mass | Approx. 360 g |
Refer to the catalog for product information not listed above.
Part Number |
---|
H5AN-4D AC100-240 |
H5AN-4D DC12-24 |
H5AN-4DM AC100-240 |
Part Number | Price | Name | Minimum Order Qty. | Volume Discount | Days to Ship | Rated power supply voltage (V) |
---|---|---|---|---|---|---|
฿ 13,276.00 ฿ 7,195.59 | TIMER/CALENDER | 1 Piece(s) | Same day | AC 100–240 | ||
฿ 17,944.00 ฿ 10,766.40 | TIMER/CALENDER | 1 Piece(s) | 50 Day(s) | DC 12–24 | ||
฿ 14,773.00 ฿ 10,045.64 | TIMER/CALENDER | 1 Piece(s) | 3 Day(s) | AC 100–240 |
Loading...
Type | Timer | Display method | LED | Mounting Method | Panel |
---|---|---|---|---|---|
Time specifications(s) | 0.01s to 9999h | Power Supply Voltage | AC/DC | Output Method | Relay/Transistor |
Dimension vertical(mm) | 72 | Dimension width(mm) | 72 | Dimension depth(mm) | 115 |
Time ranges = N | 4 range | Contact Configuration | Includes contact 1c/does not include contact |
How can we improve?
How can we improve?