In many electronic systems, stable operation depends on how power is generated, distributed, and sequenced across different circuit blocks. If power rails turn on in the wrong order or voltage levels are unstable, processors may fail to boot, memory can lose data, and sensitive components may get damaged. Managing this using multiple discrete regulators and control circuits increases design complexity and failure risk. A Power Management IC helps solve this by controlling multiple power functions inside a single device.
| Image | Part Number / Manufacturer | Description / Specs | MOQ | Datasheet | RFQ | |
|---|---|---|---|---|---|---|
| FOA-M7300CD-EVG1C-AA004 Manufacturer: Coherent Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER VAR GAIN | 1 | ||||
| GP1FM513RZ0F Manufacturer: Sharp Microelectronics Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 13.2MBPS | 1 | ||||
| GN3250-3EG7AR2E3 Manufacturer: Semtech Corporation Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 11.3GBPS | 1 | ||||
| GN3250-3EG7AM6E3 Manufacturer: Semtech Corporation Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 11.3GBPS | 1 | ||||
| GN3150-3EA5AD4E3 Manufacturer: Semtech Corporation Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 10GBPS | 1 | ||||
| XPRV2022A-VF-FP Manufacturer: Coherent Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 43GBPS | 1 | ||||
| XPRV2022A-VF-FA Manufacturer: Coherent Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 43GBPS | 1 | ||||
| CPRV2222A-LP Manufacturer: Coherent Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 100GBPS | 1 | ||||
| CPRV2122A-LP Manufacturer: Coherent Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 100GBPS | 1 | ||||
| CPRV1222A-LP Manufacturer: Coherent Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 100GBPS | 1 | ||||
| CPRV1222A-BF Manufacturer: Coherent Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 100GBPS | 1 | ||||
| GP1FA513RZ0F Manufacturer: Sharp Microelectronics Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 13.2MBPS | 1 | ||||
| GP1FA313RZ0F Manufacturer: Sharp Microelectronics Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 15.5MBPS | 1 | ||||
| TORX1355(V,F) Manufacturer: Toshiba Semiconductor and Storage Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 10MBPS | 1 | ||||
| TORX1355(F) Manufacturer: Toshiba Semiconductor and Storage Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 10MBPS | 1 | ||||
| TORX1353(V,F) Manufacturer: Toshiba Semiconductor and Storage Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 500KBPS | 1 | ||||
| TORX1353(F) Manufacturer: Toshiba Semiconductor and Storage Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER 500KBPS | 1 | ||||
| HFD700-501 Manufacturer: Honeywell Sensing and Productivity Solutions Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER LAN TTL | 1 | ||||
| HFD7000-501 Manufacturer: Honeywell Sensing and Productivity Solutions Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER LAN TTL | 1 | ||||
| HFD7000-412I Manufacturer: Honeywell Sensing and Productivity Solutions Category: Fiber Optic Receivers | FIBER OPTIC RECEIVER LAN TTL | 1 |
Many systems in operation rely on PMICs selected during original product design. These devices are often tightly linked to processor requirements, board power architecture, and system startup behavior. When a PMIC reaches end-of-life, replacing it can be difficult. Differences in pin layout, sequencing behavior, voltage accuracy, or protection response can affect system stability.
This is common in industrial, automotive, and medical systems where equipment remains active for many years. Maintenance teams often require the same PMIC to avoid redesign or system requalification. Delays in sourcing compatible PMICs can increase downtime and service cost.
Maketronics supports global engineering and procurement teams with reliable sourcing of both active and obsolete Power Management ICs.
A PMIC is an integrated circuit that manages voltage regulation, power sequencing, monitoring, and protection to ensure stable system operation.
Correct power sequencing ensures processors, memory, and peripherals start safely and operate reliably without damage or data corruption.
PMICs are widely used in embedded systems, mobile devices, industrial equipment, automotive electronics, and communication hardware.
Replacing an obsolete PMIC may require redesign and system validation because differences in pin layout, sequencing behavior, and protection features can affect stability.