方案
By Technology
The NB3V1103C is a member of the NB3V110xC a modular, high−performance, low−skew, general purpose LVCMOS clock buffer family. The device has a 1:3 fan-out. The family of devices is designed with a modular approach. Different fan-out variations, 1:2, 1:3, 1:4, 1:6 and 1:8, are available. All of the devices are pin compatible to each other for easy handling. All family members share the same high performing characteristics like low additive jitter, low skew, and wide operating temperature range. The NB3V110xCsupports an asynchronous output enable control (OE) which switchesthe outputs into a low state when OE is low. The NB3V110xC operatein a 3.3 V, 2.5 V and 1.8 V environment and are characterized for operation from –40°C to 105°C.
如需购买产品或样品,请先登录您的安森美账号。
搜寻
Close Search
产品:
1
分享
排序方式
产品系列:
┗
可订购器件:
1
产品
状态
CAD Models
Compliance
Package Type
Case Outline
MSL Type
MSL Temp (°C)
Container Type
Container Qty.
ON Target
Type
Channels
Input / Output Ratio
Input Level
Output Level
VCC Typ (V)
tJitterRMS Typ (ps)
tskew(o-o) Max (ps)
tpd Typ (ns)
tR & tF Max (ps)
fmaxClock Typ (MHz)
fmaxData Typ (Mbps)
Reference Price
NB3V1103CDTR2G
Active
Pb
A
H
P
TSSOP-8
1
260
REEL
2500
Y
Buffer
1
1:3
LVCMOS
LVTTL
LVCMOS
LVTTL
3.3
<0.2
<65
<3.5
<1200
250
~NA
Price N/A
More Details
Show More
1-25 of 25
Products per page
Jump to :
Find and compare products, get support and connect with onsemi sales team.
Contact Sales
分享
导出
Rows
Printer Friendly Version
PDF Format
Excel Format
CSV Format
To proceed order you need to accept Terms
可靠性数据
Die Related Summary Data
Device: NB3V1103CDTR2G
Equivalent to wafer fab process: ONC25
产品技术
产品技术
等效器件小时
平均故障间隔时间/平均无故障时间(按小时计算)
FITS
ONC25
1
2712519294
More Details
Re-calculate Data
Data is based on the following assumptions.
Note: The temperature and confidence level may be adjusted to your requirements.
Disclaimer: A reliability FIT rate calculated using this tool shall not be used for any functional safety purpose. In case a raw FIT rate needs to be estimated for a component which is targeted to be used in a safety critical application (i.e. compliant to ISO 26262 standard) it should be calculated according to generic safety standards (IEC62380, IEC61709, SN29500, FIDES, etc.)