| Evaluation and Demonstration Boards and Kits | 1 | Active | |
| Evaluation Boards | 1 | Active | |
IPS1025High efficiency, high-side switch with extended diagnostics, smart driving for capacitive loads and short propagation delay at power-on | Expansion Boards, Daughter Cards | 8 | Active | The IPS1025HF and IPS1025HFQ are single high-side switch ICs able to drive capacitive, resistive or inductive loads with one side connected to ground.
The 60 V operating range and RDS-ON = 12 mΩ (typ.), combined with the extended diagnostic (Over Load, Over-temperature) and the < 60 us propagation delay time at startup (enabling Class 3 for interface types C and D), make the IC suitable for applications implementing the proper architectures to address higher SIL levels.
The very low RDS-ON (≤ 25 mΩ up to TJ = 125 °C) makes the IC suitable for the applications with up to 2.4 A steady state operating current.
The output channel is protected against junction over-temperature events by a junction temperature sensor, and a further temperature sensor is included to monitor case temperature, so the overheated output channel can only be turned back ON when the case temperature returns below the reset temperature.
The embedded overload protection circuit monitors the output current and, on triggering of the activation threshold (IPK), starts modulating the impedance of the output switch to limit the output current to ILIM, for both IC and load protection.
The IC offers two different sets of activation threshold and limitation levels (IPKH, ILIMH and IPKL, ILIML) for smart driving of capacitive loads (such as bulb lamps) and loads with initial peak current requirements.
The IC diagnostics is based on FLT1 and FLT2 pins (both current source); activated by respective overload or overtemperature events on the output channel. |
IPS1025HHigh efficiency, high-side switch with extended diagnostic and smart driving for capacitive loads | Power Distribution Switches, Load Drivers | 2 | Active | The IPS1025H/HQ and IPS1025H-32/HQ-32 are single high-side switch ICs able to drive capacitive, resistive or inductive loads with one side connected to ground.
The very low RDS-ON (≤ 25 mΩ up to TJ = 125 °C) makes the IC suitable for the applications with up to 2.4 A (IPS1025H/HQ) or 5.6 A (IPS1025H-32/HQ-32) steady state operating current.
The output channel is protected against junction over-temperature events by a junction temperature sensor, and a further temperature sensor is included to monitor case temperature, so the overheated output channel can only be turned back ON when the case temperature returns below the reset temperature.
The embedded overload protection circuit monitors the output current and, on triggering of the activation threshold (IPK), starts modulating the impedance of the output switch to limit the output current to ILIM, for both IC and load protection.
The IC offers two different sets of activation threshold and limitation levels (IPKH, ILIMH and IPKL, ILIML) for smart driving of capacitive loads (such as bulb lamps) and loads with initial peak current requirements.
The IC diagnostics is based on FLT1 and FLT2 pins (both current source); activated by respective overload or overtemperature events on the output channel. |
IPS1025H-32High efficiency, high-side switch with extended diagnostics and smart driving for capacitive loads | Power Management (PMIC) | 2 | Active | The IPS1025H/HQ and IPS1025H-32/HQ-32 are single high-side switch ICs able to drive capacitive, resistive or inductive loads with one side connected to ground.
The very low RDS-ON (≤ 25 mΩ up to TJ = 125 °C) makes the IC suitable for the applications with up to 2.4 A (IPS1025H/HQ) or 5.6 A (IPS1025H-32/HQ-32) steady state operating current.
The output channel is protected against junction over-temperature events by a junction temperature sensor, and a further temperature sensor is included to monitor case temperature, so the overheated output channel can only be turned back ON when the case temperature returns below the reset temperature.
The embedded overload protection circuit monitors the output current and, on triggering of the activation threshold (IPK), starts modulating the impedance of the output switch to limit the output current to ILIM, for both IC and load protection.
The IC offers two different sets of activation threshold and limitation levels (IPKH, ILIMH and IPKL, ILIML) for smart driving of capacitive loads (such as bulb lamps) and loads with initial peak current requirements.
The IC diagnostics is based on FLT1 and FLT2 pins (both current source); activated by respective overload or overtemperature events on the output channel. |
IPS1025HFHigh efficiency, high-side switch with extended diagnostics, smart driving for capacitive loads and short propagation delay at power-on | Power Management (PMIC) | 1 | Active | The IPS1025HF and IPS1025HFQ are single high-side switch ICs able to drive capacitive, resistive or inductive loads with one side connected to ground.
The 60 V operating range and RDS-ON = 12 mΩ (typ.), combined with the extended diagnostic (Over Load, Over-temperature) and the < 60 us propagation delay time at startup (enabling Class 3 for interface types C and D), make the IC suitable for applications implementing the proper architectures to address higher SIL levels.
The very low RDS-ON (≤ 25 mΩ up to TJ = 125 °C) makes the IC suitable for the applications with up to 2.4 A steady state operating current.
The output channel is protected against junction over-temperature events by a junction temperature sensor, and a further temperature sensor is included to monitor case temperature, so the overheated output channel can only be turned back ON when the case temperature returns below the reset temperature.
The embedded overload protection circuit monitors the output current and, on triggering of the activation threshold (IPK), starts modulating the impedance of the output switch to limit the output current to ILIM, for both IC and load protection.
The IC offers two different sets of activation threshold and limitation levels (IPKH, ILIMH and IPKL, ILIML) for smart driving of capacitive loads (such as bulb lamps) and loads with initial peak current requirements.
The IC diagnostics is based on FLT1 and FLT2 pins (both current source); activated by respective overload or overtemperature events on the output channel. |
| Power Management (PMIC) | 1 | Active | The IPS160H (IOUT< 2.5 A) and IPS161H (IOUT< 0.7 A) are monolithic devices which can drive capacitive, resistive or inductive loads with one side connected to ground.
The 60 V operating range and Ron = 60 mΩ, combined with the extended diagnostic (Open Load, Over Load, Overtemperature) make the IC suitable for applications implementing the proper architectures to address higher SIL levels. The built-in overload and thermal shutdown protections guarantee the ICs, the application and the load against electrical and thermal overstress. Furthermore, in order to minimize the power dissipation when the output is shorted, a low-dissipative short-circuit protection (cut-off) is implemented to limit the output average current value and consequent device overheating.Cut-off delay time can be set by soldering an external capacitor or disabled by a resistor on pin 4 (CoD).
The DIAG common diagnostic open drain pin reports the open load in off-state, cutoff (overload) and thermal shutdown. |
| Power Distribution Switches, Load Drivers | 1 | Active | The IPS160H (IOUT< 2.5 A) and IPS161H (IOUT< 0.7 A) are monolithic devices which can drive capacitive, resistive or inductive loads with one side connected to ground.
The 60 V operating range and Ron = 60 mΩ, combined with the extended diagnostic (Open Load, Over Load, Overtemperature) make the IC suitable for applications implementing the proper architectures to address higher SIL levels. The built-in overload and thermal shutdown protections guarantee the ICs, the application and the load against electrical and thermal overstress. Furthermore, in order to minimize the power dissipation when the output is shorted, a low-dissipative short-circuit protection (cut-off) is implemented to limit the output average current value and consequent device overheating.Cut-off delay time can be set by soldering an external capacitor or disabled by a resistor on pin 4 (CoD).
The DIAG common diagnostic open drain pin reports the open load in off-state, cutoff (overload) and thermal shutdown. |
IPS160HFSingle channel high-side switches | Power Distribution Switches, Load Drivers | 2 | Active | The IPS160HF (Iout < 2.5 A) and IPS161HF (Iout < 0.7 A) are monolithic devices which can drive capacitive, resistive or inductive loads with one side connected to ground.
The 60 V operating range and Ron = 60 mΩ, combined with the extended diagnostic (Open Load, Over Load, Overtemperature) and the < 60 us propagation delay time at startup (enabling Class 3 for interface types C and D), make the IC suitable for applications implementing the proper architectures to address higher SIL levels.
The built-in overload and thermal shutdown protections guarantee the ICs, the application and the load against electrical and thermal overstress. Furthermore, in order to minimize the power dissipation when the output is shorted, a low-dissipative short-circuit protection (cut-off) is implemented to limit the output average current value and consequent device overheating. Cut-off delay time can be set by soldering an external capacitor or disabled by a resistor on pin 4 (CoD).
The DIAG common diagnostic open drain pin reports the open load in off-state, cut-off (overload) and thermal shutdown. |
| Power Distribution Switches, Load Drivers | 2 | Active | The IPS160H (IOUT< 2.5 A) and IPS161H (IOUT< 0.7 A) are monolithic devices which can drive capacitive, resistive or inductive loads with one side connected to ground.
The 60 V operating range and Ron = 60 mΩ, combined with the extended diagnostic (Open Load, Over Load, Overtemperature) make the IC suitable for applications implementing the proper architectures to address higher SIL levels. The built-in overload and thermal shutdown protections guarantee the ICs, the application and the load against electrical and thermal overstress. Furthermore, in order to minimize the power dissipation when the output is shorted, a low-dissipative short-circuit protection (cut-off) is implemented to limit the output average current value and consequent device overheating.Cut-off delay time can be set by soldering an external capacitor or disabled by a resistor on pin 4 (CoD).
The DIAG common diagnostic open drain pin reports the open load in off-state, cutoff (overload) and thermal shutdown. |
