onsemi NCP1680AAD1R2G, Power Factor Controller, 130 kHz, 30 V 16-Pin, SOIC
- RS庫存編號:
- 230-9062
- 製造零件編號:
- NCP1680AAD1R2G
- 製造商:
- onsemi
可享批量折扣
小計(1 包,共 2 件)*
TWD274.00
(不含稅)
TWD287.70
(含稅)
訂單超過 $1,300.00 免費送貨
有限的庫存
- 加上 2,482 件從 2026年1月27日 起發貨
**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* |
|---|---|---|
| 2 - 8 | TWD137.00 | TWD274.00 |
| 10 - 98 | TWD133.00 | TWD266.00 |
| 100 - 248 | TWD130.50 | TWD261.00 |
| 250 - 498 | TWD126.00 | TWD252.00 |
| 500 + | TWD124.00 | TWD248.00 |
* 參考價格
- RS庫存編號:
- 230-9062
- 製造零件編號:
- NCP1680AAD1R2G
- 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 | |
| Maximum Switching Frequency | 130 kHz | |
| IC Type | Power Factor Controller IC | |
| Package Type | SOIC | |
| Pin Count | 16 | |
| Maximum Operating Supply Voltage | 30 V | |
| 選取全部 | ||
|---|---|---|
品牌 onsemi | ||
Maximum Switching Frequency 130 kHz | ||
IC Type Power Factor Controller IC | ||
Package Type SOIC | ||
Pin Count 16 | ||
Maximum Operating Supply Voltage 30 V | ||
The ON Semiconductor series NCP1680 is a CRM PFC controller IC designed to drive the bridgeless totem-pole PFC topology. The bridgeless totem-pole PFC is a power factor correction architecture that consists of a fast switching leg driven at the PWM switching frequency and a second leg that operates at the AC line frequency. This topology eliminates the diode bridge present at the input of a conventional PFC circuit, allowing significant improvement in the power stage efficiency.
Totem Pole PFC Topology Eliminates Input Diode Bridge
Critical Conduction Mode (CRM) Operation
Discontinuous Conduction Mode (DCM) with Valley Turn On Under Light Load Condition
Frequency Fold back in DCM With 25 kHz Minimum Frequency
Skip Mode in Very Light Load Condition
Proprietary Current Sense Scheme
Digital Voltage Loop Compensation
Critical Conduction Mode (CRM) Operation
Discontinuous Conduction Mode (DCM) with Valley Turn On Under Light Load Condition
Frequency Fold back in DCM With 25 kHz Minimum Frequency
Skip Mode in Very Light Load Condition
Proprietary Current Sense Scheme
Digital Voltage Loop Compensation