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8T49N285-DDDNLGI#

产品描述Clock Generator
产品类别嵌入式处理器和控制器    微控制器和处理器   
文件大小1MB,共60页
制造商IDT (Integrated Device Technology)
下载文档 详细参数 选型对比 全文预览 文档解析

8T49N285-DDDNLGI#概述

Clock Generator

8T49N285-DDDNLGI#规格参数

参数名称属性值
厂商名称IDT (Integrated Device Technology)
包装说明HVQCCN,
Reach Compliance Codecompliant
ECCN代码EAR99
其他特性IT ALSO OPERATES AT 3.3V NOMINAL SUPPLY
JESD-30 代码S-XQCC-N56
长度8 mm
端子数量56
最高工作温度85 °C
最低工作温度-40 °C
最大输出时钟频率1000 MHz
封装主体材料UNSPECIFIED
封装代码HVQCCN
封装形状SQUARE
封装形式CHIP CARRIER, HEAT SINK/SLUG, VERY THIN PROFILE
主时钟/晶体标称频率40 MHz
座面最大高度1 mm
最大供电电压2.625 V
最小供电电压2.375 V
标称供电电压2.5 V
表面贴装YES
技术CMOS
温度等级INDUSTRIAL
端子形式NO LEAD
端子节距0.5 mm
端子位置QUAD
宽度8 mm
uPs/uCs/外围集成电路类型CLOCK GENERATOR, PROCESSOR SPECIFIC

文档解析

8T49N285是一款高性能的频率转换器,它在实际应用中可能会遇到一些问题,以下是一些常见问题及其可能的解决方案:

  1. 锁定问题

    • 问题:PLL(相位锁定环)无法锁定输入信号。
    • 解决方案:检查输入信号的质量,确保信号稳定且在规定的频率范围内。检查电源和接地是否稳定,以及是否有适当的滤波和去耦。

  2. 抖动和相位噪声

    • 问题:输出信号的抖动或相位噪声过大。
    • 解决方案:优化PCB布局,减少信号路径上的噪声。确保使用高质量的输入参考时钟,并使用适当的外部滤波器。

  3. 参考时钟切换

    • 问题:在自动参考时钟切换时出现短暂的锁定丢失或输出不稳定。
    • 解决方案:优化输入时钟的优先级设置,确保在切换时有合适的时钟源可用。使用hitless切换技术来减少切换时的影响。

  4. 电源问题

    • 问题:电源供应不稳定或电源噪声导致性能下降。
    • 解决方案:使用稳定且干净的电源供应。可能需要使用LDO(低压差线性稳压器)或其他电源管理技术来减少电源噪声。

  5. 热问题

    • 问题:设备在高频率或高功耗下工作时过热。
    • 解决方案:确保有足够的散热措施,如使用散热片或增加空气流动。可能需要重新设计PCB布局以优化热管理。

  6. I2C通信问题

    • 问题:通过I2C接口进行设备配置时通信失败。
    • 解决方案:检查I2C总线的拉上电阻是否正确配置,总线是否受到干扰。确保I2C地址和通信协议正确无误。

  7. 输出频率不准确

    • 问题:输出频率与预期不符。
    • 解决方案:检查输出分频器设置是否正确,并确认PLL的配置是否满足所需的输出频率。

  8. 硬件兼容性问题

    • 问题:与其他硬件组件(如FPGA或ASIC)集成时出现问题。
    • 解决方案:确保时钟域之间的同步正确处理,检查所有接口和通信协议是否兼容。

  9. 软件配置错误

    • 问题:设备配置错误导致性能不达标。
    • 解决方案:仔细检查配置寄存器的设置,确保所有参数都按照数据手册正确设置。

  10. 长期稳定性问题

    • 问题:设备在长时间运行后性能下降。
    • 解决方案:定期校准设备,检查长期稳定性,并在必要时更换或重新配置设备。

解决这些问题通常需要对硬件设计和系统配置有深入的理解。如果遇到难以解决的问题,可以联系制造商的技术支持获取帮助。

8T49N285-DDDNLGI#文档预览

FemtoClock
®
NG Octal
Universal Frequency Translator
8T49N285
DATA SHEET
General Description
The 8T49N285 has a fractional-feedback PLL that can be used as a
jitter attenuator or frequency translator. It is equipped with six integer
and two fractional output dividers, allowing the generation of up to 8
different output frequencies, ranging from 8kHz to 1GHz. Three of
these frequencies are completely independent of each other and the
inputs. The other five are related frequencies. The eight outputs may
select among LVPECL, LVDS, HSCL or LVCMOS output levels.
This functionality makes it ideal to be used in any frequency
translation application, including 1G, 10G, 40G and 100G
Synchronous Ethernet, OTN, and SONET/SDH, including ITU-T
G.709 (2009) FEC rates. The device may also behave as a frequency
synthesizer.
The 8T49N285 accepts up to two differential or single-ended input
clocks and a crystal input. The PLL can lock to either input clock, but
both input clocks must be related in frequency.
The device supports hitless reference switching between input
clocks. The device monitors both input clocks for Loss of Signal
(LOS). It generates an alarm when an input clock failure is detected.
Automatic and manual hitless reference switching options are
supported. LOS behavior can be set to support gapped or un-gapped
clocks.
The 8T49N285 supports holdover with an initial accuracy of ±50ppB
from the point where the loss of all applicable input reference(s) has
been detected. It maintains a historical average operating point that
may be returned to in holdover at a limited phase slope.
The device places no constraints on input to output frequency
conversion, supporting all FEC rates, including the new revision of
ITU-T Recommendation G.709 (2009), most with 0ppm conversion
error.
The PLL has a register-selectable loop bandwidth from 1.4Hz to
360Hz.
Each output supports individual phase delay settings to allow
output-output alignment.
The device supports Output Enable inputs and Lock, Holdover and
LOS status outputs.
The device is programmable through an I
2
C interface. It also
supports I
2
C master capability to allow the register configuration to
be read from an external EEPROM.
Features
Supports SDH/SONET and Synchronous Ethernet clocks
including all FEC rate conversions
<0.3ps RMS typical jitter (including spurs),12kHz to 20MHz
Operating modes: locked to input signal, holdover and free-run
Initial holdover accuracy of ±50ppb
Accepts two LVPECL, LVDS, LVHSTL, HCSL or LVCMOS
input clocks
Accepts frequencies ranging from 8kHz up to 875MHz
Auto and manual input clock selection with hitless switching
Clock input monitoring, including support for gapped clocks
Phase-Slope Limiting and Fully Hitless Switching options to
control output phase transients
Operates from a 10MHz to 40MHz fundamental-mode crystal
Generates 8 LVPECL/LVDS/HSCL or 16 LVCMOS output clocks
Output frequencies ranging from 8kHz up to 1.0GHz (diff)
Output frequencies ranging from 8kHz to 250MHz (LVCMOS)
Four General Purpose I/O pins with optional support for status &
control:
Four Output Enable control inputs may be mapped to any of the
eight outputs
Lock, Holdover & Loss-of-Signal status outputs
Open-drain Interrupt pin
Nine programmable PLL loop bandwidth settings from 1.4Hz to
360Hz.
Optional Fast Lock function
Programmable output phase delays in steps as small as 16ps
Register programmable through I
2
C or via external I
2
C EEPROM
Bypass clock paths for system tests
Power supply modes
V
CC
/ V
CCA
/ V
CCO
3.3V / 3.3V / 3.3V
3.3V / 3.3V / 2.5V
3.3V / 3.3V / 1.8V (LVCMOS)
2.5V / 2.5V / 3.3V
2.5V / 2.5V / 2.5V
2.5V / 2.5V / 1.8V (LVCMOS)
-40°C to 85°C ambient operating temperature
Package: 56QFN, lead-free RoHs (6)
Applications
• OTN or SONET / SDH equipment Line cards (up to OC-192, and
supporting FEC ratios)
• OTN de-mapping (Gapped Clock and DCO mode)
• Gigabit and Terabit IP switches / routers including support of
Synchronous Ethernet
• SyncE (G.8262) applications
• Wireless base station baseband
• Data communications
• 100G Ethernet
8T49N285 REVISION 1 10/21/14
1
©2014 Integrated Device Technology, Inc.
8T49N285 DATA SHEET
8T49N285 Block Diagram
XTAL
OSC
CLK0
CLK1
÷
P0
÷
P1
Input Clock
Monitoring,
Priority,
&
Selection
Fractional
Feedback
APLL
Lock
Holdover
IntN Output
Divider
IntN Output
Divider
FracN Output
Divider
FracN Output
Divider
Q0
Q1
Q2
Q3
IntN
nRST
Q4
Q5
Q6
Q7
Reset
Logic
I
2
C Master
LOS
Status Registers
Control Registers
4
IntN
GPIO
Logic
IntN
IntN
GPIO
nINT PLL_BYP
OTP
I
2
C Slave
SCLK
SDATA
Serial EEPROM
SA0
Figure 1. 8T49N285 Functional Block Diagram
FEMTOCLOCK
®
NG OCTAL UNIVERSAL FREQUENCY TRANSLATOR
2
REVISION 1 10/21/14
8T49N285 DATA SHEET
Pin Assignment
GPIO[2]
V
CC04
Q4
nQ4
V
CC05
V
CC07
Q7
nQ7
GPIO[3]
Q5
nQ5
V
CC06
Q6
nQ6
nQ1
Q1
V
CCO1
nRST
nQ0
Q0
V
CCO0
nINT
V
CCA
CAP_REF
CAP
PLL_BYP
V
CCA
V
CCA
42 41 40
39 38 37 36 35 34 33 32 31 30
29
28
43
44
27
45
46
47
48
49
50
51
52
53
54
55
56
OSCI
nQ2
Q2
V
CC02
GPIO[0]
nQ3
Q3
V
CCO3
GPIO[1]
V
CCA
RESERVED
RESERVED
V
CC
V
CCA
V
CCA
26
25
24
8T49N285
23
22
21
20
19
18
17
16
15
1 2
3
4 5 6 7
8 9
10 11 12 13 14
OSCO
S_A0
V
EE
CLK0
nCLK0
CLK1
nCLK1
V
CC
SDATA
SCLK
V
CCA
56-Pin VFQFN, 8mm x 8mm x 0.90mm Package
Figure 2. Pinout Drawing
V
CCA
V
CCA
REVISION 1 10/21/14
3
FEMTOCLOCK
®
NG OCTAL UNIVERSAL FREQUENCY TRANSLATOR
8T49N285 DATA SHEET
Pin Description and Pin Characteristic Tables
Table 1. Pin Descriptions
Number
3
4
5
12
13
7
8
9
10
48, 47
44, 43
27, 28
23, 24
40, 39
37, 36
34, 33
31, 30
46
Name
OSCI
OSCO
S_A0
SDATA
SCLK
CLK0
nCLK0
CLK1
nCLK1
Q0, nQ0
Q1, nQ1
Q2, nQ2
Q3, nQ3
Q4, nQ4
Q5, nQ5
Q6, nQ6
Q7, nQ7
nRST
I
O
I
I/O
I/O
I
I
I
I
O
O
O
O
O
O
O
O
I
Pulldown
Pullup
Pullup
Pulldown
Pullup /
Pulldown
Pulldown
Pullup /
Pulldown
Universal
Universal
Universal
Universal
Universal
Universal
Universal
Universal
Pullup
Open-drain
with pullup
Pullup
Pulldown
Type
Description
Crystal Input. Accepts a 10MHz-40MHz reference from a clock oscillator or
a 12pF fundamental mode, parallel-resonant crystal.
Crystal Output. This pin should be connected to a crystal. If an oscillator is
connected to OSCI, then this pin must be left unconnected.
I
2
C lower address bit A0.
I
2
C interface bi-directional Data.
I
2
C interface bi-directional Clock.
Non-inverting differential clock input.
Inverting differential clock input. V
CC
/2 when left floating (set by the internal
pullup and pulldown resistors.)
Non-inverting differential clock input.
Inverting differential clock input. V
CC
/2 when left floating (set by the internal
pullup and pulldown resistors.)
Output Clock 0. Please refer to the Output Drivers section for more details.
Output Clock 1. Please refer to the Output Drivers section for more details.
Output Clock 2. Please refer to the Output Drivers section for more details.
Output Clock 3. Please refer to the Output Drivers section for more details.
Output Clock 4. Please refer to the Output Drivers section for more details.
Output Clock 5. Please refer to the Output Drivers section for more details.
Output Clock 6. Please refer to the Output Drivers section for more details.
Output Clock 7. Please refer to the Output Drivers section for more details.
Master Reset input. LVTTL / LVCMOS interface levels.
0 = All registers and state machines are reset to their default values
1 = Device runs normally
Interrupt output.
General-purpose input-outputs. LVTTL / LVCMOS Input levels Open-drain
output.Pulled-up with 5.1k resistor to V
CC
Bypass Selection. Allow input references to bypass the PLL.
LVTTL / LVCMOS interface levels
Negative supply voltage. All V
EE
pins and ePad must be connected before
any positive supply voltage is applied.
Core and digital functions supply voltage.
Core and digital functions supply voltage.
Analog functions supply voltage for core analog functions.
Analog functions supply voltage for analog functions associated with PLL.
High-speed output supply voltage for output pair Q0, nQ0.
High-speed output supply voltage for output pair Q1, nQ1.
High-speed output supply voltage for output pair Q2, nQ2.
High-speed output supply voltage for output pair Q3, nQ3.
High-speed output supply voltage for output pair Q4, nQ4.
4
REVISION 1 10/21/14
50
29, 42, 21, 25
54
6, ePad
11
17
2, 14, 15, 16,
20
1, 51, 55, 56
49
45
26
22
41
nINT
GPIO[3:0]
PLL_BYP
V
EE
V
CC
V
CC
V
CCA
V
CCA
V
CCO0
V
CCO1
V
CCO2
V
CCO3
V
CCO4
O
I/O
I
Power
Power
Power
Power
Power
Power
Power
Power
Power
Power
FEMTOCLOCK
®
NG OCTAL UNIVERSAL FREQUENCY TRANSLATOR
8T49N285 DATA SHEET
Table 1. Pin Descriptions (Continued)
Number
38
35
32
53
52
18,
19
Name
V
CCO5
V
CCO6
V
CCO7
CAP,
CAP_REF
RESERVED
Power
Power
Power
Analog
Reserved
Type
Description
High-speed output supply voltage for output pair Q5, nQ5.
High-speed output supply voltage for output pair Q6, nQ6.
High-speed output supply voltage for output pair Q7, nQ7.
PLL External Capacitance.
Reserved pins.
NOTE:
Pullup
and
Pulldown
refer to internal input resistors. See
Table 2,
Pin Characteristics,
for typical values.
Table 2. Pin Characteristics,
V
CC
= V
CCOX
= 3.3V±5% or 2.5V±5%
Symbol
C
IN
Parameter
Input Capacitance;
NOTE 1
Internal
Pullup
Resistor
nRST,
SDATA, SCLK
nINT
GPIO[3:0]
R
PULLDOWN
Internal Pulldown Resistor
LVCMOS
Q[0:1], Q[4:7]
LVCMOS Q[2:3]
LVCMOS
Q[0:1], Q[4:7]
Power
Dissipation
Capacitance
(per output
pair)
LVCMOS Q[2:3]
LVCMOS
Q[0:1], Q[4:7]
LVCMOS Q[2:3]
LVDS, HSCL or
LVPECL Q[0:1],
Q[4:7]
LVDS, HSCL or
LVPECL Q[2:3]
Output
Impedance
GPIO [3:0]
LVCMOS
Q[0:7], nQ[0:7]
V
CCOX
= 3.465V
V
CCOX
= 3.465V
V
CCOX
= 2.625V
V
CCOX
= 2.625V
V
CCOX
= 1.89V
V
CCOX
= 1.89V
V
CCOx
= 3.465V or 2.625V
V
CCOx
= 3.465V or 2.625V
Output HIGH
Output LOW
Test Conditions
Minimum
Typical
3.5
51
50
5.1
51
14.5
18.5
13
17.5
12.5
17
2
Maximum
Units
pF
k
k
k
k
pF
pF
pF
pF
pF
pF
pF
R
PULLUP
C
PD
4.5
5.1
25
20
pF
k
R
OUT
NOTE: V
CCOX
denotes: V
CCO0,
V
CCO1,
V
CCO2,
V
CCO3,
V
CCO4,
V
CCO5,
V
CCO6,
V
CCO7
.
NOTE 1: This specification does not apply to OSCI and OSCO pins.
REVISION 1 10/21/14
5
FEMTOCLOCK
®
NG OCTAL UNIVERSAL FREQUENCY TRANSLATOR
查看更多(仅显示前5页内容,查看全部内容请下载文档。)>

8T49N285-DDDNLGI#相似产品对比

8T49N285-DDDNLGI# 8T49N285-DDDNLGI
描述 Clock Generator Clock Generator
厂商名称 IDT (Integrated Device Technology) IDT (Integrated Device Technology)
包装说明 HVQCCN, HVQCCN,
Reach Compliance Code compliant compliant
ECCN代码 EAR99 EAR99
其他特性 IT ALSO OPERATES AT 3.3V NOMINAL SUPPLY IT ALSO OPERATES AT 3.3V NOMINAL SUPPLY
JESD-30 代码 S-XQCC-N56 S-XQCC-N56
长度 8 mm 8 mm
端子数量 56 56
最高工作温度 85 °C 85 °C
最低工作温度 -40 °C -40 °C
最大输出时钟频率 1000 MHz 1000 MHz
封装主体材料 UNSPECIFIED UNSPECIFIED
封装代码 HVQCCN HVQCCN
封装形状 SQUARE SQUARE
封装形式 CHIP CARRIER, HEAT SINK/SLUG, VERY THIN PROFILE CHIP CARRIER, HEAT SINK/SLUG, VERY THIN PROFILE
主时钟/晶体标称频率 40 MHz 40 MHz
座面最大高度 1 mm 1 mm
最大供电电压 2.625 V 2.625 V
最小供电电压 2.375 V 2.375 V
标称供电电压 2.5 V 2.5 V
表面贴装 YES YES
技术 CMOS CMOS
温度等级 INDUSTRIAL INDUSTRIAL
端子形式 NO LEAD NO LEAD
端子节距 0.5 mm 0.5 mm
端子位置 QUAD QUAD
宽度 8 mm 8 mm
uPs/uCs/外围集成电路类型 CLOCK GENERATOR, PROCESSOR SPECIFIC CLOCK GENERATOR, PROCESSOR SPECIFIC

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