Catalogs > Industrial Controls Catalog > Relays, Timers, and Temperature Controllers > Solid-State Relays > Bulletin 700-SA Tube Base Relay
Bulletin 700-SA Tube Base Relay
| Introduction |  |
Standards Compliance and Certifications | |
Product Selection | |
Accessories | |
Specifications | |
Approximate Dimensions | |
| Control/Input Ratings | ||||||
| Cat. No. | Rated Control Voltage |
Max. Operating Control Voltage Range | Max. Reverse Control Voltage | Impedance | Control Voltage Levels | |
| Pick-up Voltage | Drop-out Voltage | |||||
| 700-SAZY5Z25 | 5…24V DC | 4…32V DC | -32V DC | 15 mA max.¬ | 4V DC max. | 1V DC min. |
| 700-SANY3Z25 | 4…30V DC | -30V DC | 1.5 kW (+20% -10%) | |||
| Load/Output Ratings | |||||
| Cat. No. | Rated Load Voltage | Maximum Load Voltage Range |
Continuous Load Current (Resistive) [A] | Max. Inrush Current‡ | |
| Min. | MaxT | ||||
| 700-SAZY5Z25 | 100…240V AC | 75…264V AC | 0.1 | 5.0 | 80 A, @ 50/60 Hz for 1 cycle |
| 700-SANY3Z25 | 5…110V DC | 3…125V DC | 0.1 | 3.0 | 12 A (10 ms) |
| ¬ If the SSR operation is continuous ON/OFF, this value should be reduced by 50%. Refer to "Inrush Current Resistivity§ " graphs below. | |||||
| T Refer to the following graph "Load Current vs. Ambient Temperature Characteristics" for additional load current details. | |||||
| Characteristics | |||
| Description | Cat. No. 700-SAZY5Z25 | Cat. No. 700-SANY3Z25 | |
| Load Switching Method/Device | Triac | Transistor | |
| Pick-up Time | 1/2 cycle of load power source cycle time§ + 1 ms max. | 0.5 ms max. | |
| Drop-out Time | 1/2 cycle of load power source cycle time§ + 1 ms max. | 2.5 ms max. | |
| Output ON Voltage Drop | 1.6V (RMS) max. | 1.5V max. | |
| Output Leakage Current | 5 mA max. (at 100V AC); 10 mA max. (at 200V AC) | 5 mA max. (at 125V DC) | |
| Output VDRM VCEO (V) | 600 | 150 | |
| Output di/dt (A/uS) | 50 | — | |
| Output dv/dt (V/uS) | 500 | — | |
| Output I2t (A2S) | 41.6 | — | |
| Output Tj (ÂșC) Max. | 125 | 150 | |
| Insulation Resistance | 100 MW min. (at 500V DC) | ||
| Dielectric Strength | 1500V 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 | 45…85% (no condensation) | ||
| Standards Compliance | UL 508, CSA C22.2 No. 14, EN 60947-1, -4-3 | ||
| Certifications | cURus Recognized (File No. E96956, Guide NMFT2/NMFT8), CE Marked, VDE Certified | ||
| Weight | Approx. 70 g | ||
| ¬ With constant current input system. SSR input impedance varies with a change in input (control) voltage. | |||
| T Refer to the following graph “Load Current Vs. Ambient Temperature Characteristics” for additional load current details. | |||
| ‡ If the SSR operation is continuous ON/OFF, this value should be reduced by 50%. Refer to “Inrush Current Resistivity” graph below. | |||
| § 60 Hz full cycle time = 16.6 ms, 50 Hz full cycle time = 20 ms | |||
Load Current vs. Ambient Temperature Characteristics
Inrush Current Resistivity§
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§ 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 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.
Terminal Arrangement (Bottom View)
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Basic Application Considerations
High Density Mounting of Multiple SSRs
If multiple SSRs are installed side by side be aware that the outer case wall of the SSR serves to dissipate heat. Install the relays so that they are adequately ventilated. If poor ventilation is unavoidable, reduce the load current to half.
Protective Component
When controlling AC inductive loads, connect an inrush/surge absorbing device (varistor) across the SSR load terminals. If the SSR has built-in surge suppression (Bulletins 700-SE and 700-SH) and additional surge suppression is required, connect the varistor across the terminals of the load device. Select a varistor that meets the conditions of the load voltage outlined in the table below.
| Load Voltage | Varistor Voltage [V] | Varistor Surge Resistance |
| 100…120V AC | 240…270 | 1000 A min. |
| 200…240V AC | 440…470 | |
| 380…480V AC | 820…1000 | |
| Note:For additional details applying solid-state relays, refer to pub. 700-AT001_-EN-E, “Solid-State Relay Application Guide”. | ||
For a DC inductive load, a diode should be connected parallel to the load to absorb the counter electromotive force (OFF) of the load.
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Note:For additional details when using Solid-State Relays, refer to pub. 700-AT001_-EN-E, “Solid-State Relay Application Guide".