Bulletin 700-SE Flat Pack Relay
| Product Overview |
|
Bulletin 700-SE — Flat Pack Relay
- 20 A (resistive) max. continuous load (output) current with heat sink
- 264V AC max. load voltage
- 5,12, or 24V DC control/input voltage options
- Built-in varistor helps absorb most electrical surges
- Low profile (flat pack) design
- Quick-connect #110 input and #250 output terminals
Standards Compliance and Certifications
- See Specifications.
Product Selection
| Build a Catalog Number |
| Input-to-Output Isolation Method | Zero Cross Function | Status Indicator | Output (Load) Max. Continuous Current and Rated Voltage Range⋆ |
Rated Input (Control) Voltage | Cat. No. | |
|
Phototriac | Yes | No | 5 A @ 100…240V AC (47…63 Hz) |
5V DC | 700-SE05GZZ05 |
| 12V DC | 700-SE05GZZ12 | |||||
| 24V DC | 700-SE05GZZ24 | |||||
| 10 A @ 100…240V AC (47…63 Hz) |
5V DC | 700-SE10GZZ05 | ||||
| 12V DC | 700-SE10GZZ12 | |||||
| 24V DC | 700-SE10GZZ24 | |||||
| 20 A @ 100…240V AC (47…63 Hz) |
5V DC | 700-SE20GZZ05 | ||||
| 12V DC | 700-SE20GZZ12 | |||||
| 24V DC | 700-SE20GZZ24 | |||||
| No | 5 A @ 100…240V AC (47…63 Hz) |
5V DC | 700-SE05GNZ05 | |||
| 12V DC | 700-SE05GNZ12 | |||||
| 24V DC | 700-SE05GNZ24 | |||||
| 10 A @ 100…240V AC (47…63 Hz) |
5V DC | 700-SE10GNZ05 | ||||
| 12V DC | 700-SE10GNZ12 | |||||
| 24V DC | 700-SE10GNZ24 | |||||
| 20 A @ 100…240V AC (47…63 Hz) |
5V DC | 700-SE20GNZ05 | ||||
| 12V DC | 700-SE20GNZ12 | |||||
| 24V DC | 700-SE20GNZ24 | |||||
| ⋆ Maximum load current when mounted on the appropriate heat sink. Refer to Specifications. | ||||||
Accessories
| Description | Pkg. Quantity | Cat. No. | |
|
Heat Sink— Panel or DIN Rail Mount⋆ | 1 | 700-S10 |
|
Heat Sink— Panel or DIN Rail Mount⋆ | 1 | 700-S20 |
|
DIN (#3) symmetrical hat rail 35 x 7.5 x 1 m |
10 | 199-DR1 |
| Thermally (heat) conductive grease, non-silicon based | 1 | 46801-010-01 | |
| ⋆ Refer to “Load Current Vs. Ambient Temperature Characteristics” Load Current vs. Ambient Temperature Characteristics⋆ for information about how to select the correct size of heat sink for your application (Cat. No. 700-S10, 700-S20). For additional heat sink information refer to pub. 700-AT001_-EN-E, "Solid-State Relay Application Guide". | |||
Specifications
| Control/Input Ratings⋆ | |||||||
| Cat. No. | Rated Control Voltage |
Max. Operating Control Voltage Range | Max. Reverse Control Voltage [V] | Impedance | Control Voltage Levels | ||
| With Zero Cross Function | Without Zero Cross Function | Pick-up Voltage | Drop-out Voltage | ||||
| 700-SE_ _ _Z05 | 5V DC | 4…6V DC | –6 | 250 W ± 20% | 300 W ± 20% | 4V DC max. | 1V DC min. |
| 700-SE_ _ _Z12 | 12V DC | 9.6…14.4V DC | –14.4 | 600 W ± 20% | 800 W ± 20% | 9.6V DC max. | |
| 700-SE_ _ _Z24 | 24V DC | 19.2…28.8V DC | –28.8 | 1.6k W ± 20% | 19.2V DC max. | ||
| ⋆ Each 5 A, 10 A, and 20 A model has 5V DC, 12V DC, and 24V DC input versions. | |||||||
| Load/Output Ratings | |||||||
| Cat. No. |
Rated Load Voltage | Max. Load Voltage Range | Continuous Load Current (Resistive) | Max. Inrush Current§ | |||
| With Heat Sink‡ [A] | Without Heat Sink‡ [A] | ||||||
| Min. | Max. | Min. | Max. | ||||
| 700-SE05… | 100…240V AC | 75…264V AC | 0.1 | 5 | 0.1 | 5 | 60 A (@50/60 Hz, 1 cycle) |
| 700-SE10… | 0.1 | 10 | 0.1 | 5 | 150 A (@50/60 Hz, 1 cycle) | ||
| 700-SE20… | 0.1 | 20 | 0.1 | 5 | 220 A (@50/60 Hz, 1 cycle) | ||
| ‡ Refer to "Load Current vs. Ambient Temperature Characteristics⋆ " regarding maximum load current with and without heat sinks. | |||||||
| § If the SSR operation is continuous ON/OFF, this value should be reduced by 50%. Refer to “Inrush Current Resistivity‡ ” for more details. | |||||||
| Characteristics | ||
| Description | Cat. No. 700-SE_ _ _Z… | Cat. No. 700-SE_ _ _N… |
| Load Switching Method/Device | Triac | |
| Pick-up Time | 1/2 of load power source cycle time♣ + 1 ms max. | 1 ms max. |
| Drop-out Time | 1/2 of load power source cycle time♣ + 1 ms max. | |
| Output ON Voltage Drop | 1.6V (RMS) max. | |
| Output Leakage current | 5 mA max (@ 100 V AC) 10 mA max (@ 200 V AC) |
|
| Output VDRM, VCEO (V) | 600 | |
| Output di/dt (A/uS) | SE05GZ = 100 SE10GZ & SE20 GZ = 50 |
SE05GN = 100 SE10 GN & SE20GN = 50 |
| Output dv/dt (V/uS) | SE05GZ = 200, SE10GZ = 500, SE20GZ = 100 | SE05GN = 200, SE10GN = 500, SE20GN = 100 |
| Output I2t (A2S) | SE05GZ = 24.5, SE10GZ = 60, SE20GZ = 260 | SE05GN = 24.5, SE10GN = 60, SE20GN = 260 |
| Output Tj (°C) Max. | 125 | |
| Insulation Resistance | 100 MW min (at 500V DC) | |
| Dielectric Strength | 2000V AC, 50/60 Hz for 1 min. | |
| Vibration Resistance (Max.) | 10…55 Hz, 1.5 mm double amplitude (10 G) | |
| Shock Resistance (Max.) | 1000 m/s2 (100 G) | |
| Ambient Temperature | Operating: –30…+80 °C (–22…+176 °F) with no icing or condensation Storage: –30…+100 °C (–22…+212 °F) with no icing or condensation |
|
| Ambient Humidity Operating | 45…85% (no condensation) | |
| Standards Compliance | UL 508, CSA C22.2 No. 14, EN/IEC 60950, EN5 0011, EN 62000-6-2 | |
| Certifications | cURus Recogonized (File No. E96956, Guide NMFT2/NMFT8), CE Marked, TÜV Certified | |
| Weight | Approx. 37 g | |
| ♣ 60 Hz full cycle time = 16.6 ms, 50 Hz full cycle time = 20 ms | ||
Load Current vs. Ambient Temperature Characteristics⋆
|
Inrush Current Resistivity‡
|
⋆ All graphs assume conductive grease (Allen-Bradley repair part number W46801-010) is being used.
‡ Inrush current resistivity is the ability of an SSR to withstand a large surge current for a short period of time. Surges are considered non-repetitive (max. repeatability once every 2…5 seconds). Keep the inrush current to half the rated value if it occurs repetitively. Exceeding the non-repetitive inrush current will damage the SSR.
Approximate Dimensions
Mounting Considerations⋆ ‡ §
Note: All units are in millimeters unless otherwise indicated. To convert to inches multiply by 0.0394. Dimensions are not intended for manufacturing purposes.
|
⋆ The proper mounting orientation of the heat sink is so the heat fins run perpendicular to the floor (vertical) to maximize ventilation flow. If the fins do not run perpendicular to the floor, a 30% current derating is required.
‡ When attaching a heat sink to Bulletin 700-SE, apply a thin layer of heat conductive grease (approximately 0.002 in. thick) on the heat sink to maximize heat transfer between the SSR and the heat sink. Recommended types: Silicon based, Dow Corning 340, Toshiba YG6240; Non-silicon based, AOS company type 53300 (Cat No. 46801-010-01).
§ Tighten the SSR panel/heat sink mounting screws to a torque of 0.78…0.98 N•m (6.9…8.7 lb•in.)
Heat Sinks
Cat. No. 700-S10
|
Mounting Holes♣
|
Cat. No. 700-S20
|
Mounting Holes
|
♣ Tighten the heat sink panel mounting screws (M4) to a torque of 0.59…0.98 N•m (5.22…8.67 lb•in.).
Basic Application Considerations
|
- Because the operation time of Bulletin 700-SE is extremely short, take measures to suppress noise induced between the input terminals. If generation of strong noise is expected, connect an external noise absorber such as an RC circuit.
- Do not apply excessive force to the terminals. Exercise care when pulling or inserting the terminal clips.
- Bulletin 700-SE has a built-in varistor to absorb most inrush/surge currents when operating AC inductive loads. If additional suppression is required, connect an external varistor across the load device terminals. Select a varistor that meets the load voltage outlined in the table below.
- For additional details on applying solid-state relays, refer to pub. 700-AT001_-EN-E, "Solid-State Relay Application Guide."
| Load Voltage [V AC] | Varistor Voltage [V] | Varistor Surge Resistance |
| 100…120 | 240…270 | 1000 A min. |
| 200…240 | 440…470 | |
| 380…480 | 820…1000 | |