onsemi NCP1623ADR2G, Power Factor Controller IC 8-Pin, SOIC-8 11.25 V
- RS庫存編號:
- 254-7616
- 製造零件編號:
- NCP1623ADR2G
- 製造商:
- onsemi
此圖片僅供參考,請參閲產品詳細資訊及規格
可享批量折扣
小計(1 包,共 5 件)*
TWD218.00
(不含稅)
TWD228.90
(含稅)
添加 35 件 件可免費送貨
暫時缺貨
- 從 2026年7月16日 發貨
**需要更多嗎?**輸入您需要的數量,然後按一下「查看送貨日期」以查詢更多庫存和送貨詳細資訊。
單位 | 每單位 | 每包* |
|---|---|---|
| 5 - 5 | TWD43.60 | TWD218.00 |
| 10 - 95 | TWD39.60 | TWD198.00 |
| 100 - 245 | TWD37.60 | TWD188.00 |
| 250 - 495 | TWD31.00 | TWD155.00 |
| 500 + | TWD28.80 | TWD144.00 |
* 參考價格
- RS庫存編號:
- 254-7616
- 製造零件編號:
- NCP1623ADR2G
- 製造商:
- onsemi
規格
產品概覽和技術數據資料表
法例與合規
產品詳細資訊
透過選取一個或多個屬性來查找類似產品。
選取全部 | 屬性 | 值 |
|---|---|---|
| 品牌 | onsemi | |
| Product Type | Power Factor Controller IC | |
| Start-up Supply Current | 50μA | |
| Maximum Source Current | 26.25μA | |
| Sub Type | Power Factor Controller IC | |
| Maximum Sink Current | 0.45μA | |
| Mount Type | Surface | |
| Package Type | SOIC-8 | |
| Minimum Supply Voltage | 9.75V | |
| Pin Count | 8 | |
| Maximum Supply Voltage | 11.25V | |
| Minimum Operating Temperature | -40°C | |
| Standards/Approvals | JEDEC | |
| Length | 5mm | |
| Series | NCP1623 | |
| Height | 1.75mm | |
| Width | 4 mm | |
| Maximum Operating Temperature | 125°C | |
| Automotive Standard | AEC-Q3, AEC-Q100, AEC-Q2 | |
| 選取全部 | ||
|---|---|---|
品牌 onsemi | ||
Product Type Power Factor Controller IC | ||
Start-up Supply Current 50μA | ||
Maximum Source Current 26.25μA | ||
Sub Type Power Factor Controller IC | ||
Maximum Sink Current 0.45μA | ||
Mount Type Surface | ||
Package Type SOIC-8 | ||
Minimum Supply Voltage 9.75V | ||
Pin Count 8 | ||
Maximum Supply Voltage 11.25V | ||
Minimum Operating Temperature -40°C | ||
Standards/Approvals JEDEC | ||
Length 5mm | ||
Series NCP1623 | ||
Height 1.75mm | ||
Width 4 mm | ||
Maximum Operating Temperature 125°C | ||
Automotive Standard AEC-Q3, AEC-Q100, AEC-Q2 | ||
The ON Semiconductor NCP series of a controller designed to drive PFC boost stages which is based on an innovative valley synchronized frequency fold back method, it operates in critical conduction mode until the power drops below a threshold level. The PFC controller enters discontinuous conduction mode with increased dead-time as the load further decay. It maximizes the efficiency at both nominal and light loads.
Maximizes the efficiency at both nominal and light loads
Simplifies PFC inductor design, eliminates auxiliary winding
Zero current detection via drain sensing