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更多>>法国JAUCH品牌推荐Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振
来源:http://www.zhaoxiandz.com 作者:zhaoxiandz 2022年06月27
法国约克JAUCH品牌推荐Q 24.0-JXS32-12-30/30-T1-FU-LF无源晶振
石英晶体振荡器的操作说明
-1-Jauch晶振石英有限公司
通常,石英晶体振荡器被设计成对环境相当不敏感
条件,但在运输、储存和生产过程中应注意避免
晶体振荡器性能恶化,甚至破坏内置的晶体基
组件.Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振
1. Storage conditions and moisture
A crystal oscillator is a hermetically sealed device; therefore no humidity gets inside the cavity of its
package. As the handling conditions and the pre-production conditioning being defined in JEDEC
J-STD-020 do only apply to non-hermetic devices, they basically do not apply to quartz crystal
components.
Nevertheless, long storage of quartz crystal oscillators at hot and humid conditions should be avoided.
Therefore, we recommend storing our oscillators within the conditions described as MSL level 2, to
avoid slight oxidation of the component’s contact pins.
SMD oscillators with gold-plated contact pads are even less susceptible to pad oxidation, and storage
temperature and humidity conditions according to MSL level 1 may be applied.
During storage of the component, the storage conditions should never exceed the temperature limits as
specified in the catalogue or datasheets. Please note that the storage temperature range applies to the
component only.
Preferably, please keep the storage temperature between +10° ~ +45°C (50°F ~ 115°F) and below
60% RH as long as the component is packed and reeled.
If the oscillators were stored over a long period or the storage conditions were not appropriate, before
using please make sure that the crystal components still comply to their specifications by performing
visual and electrical inspections.
2. Transportation and Handling
During transportation and during the manufacturing process, please avoid high shock and vibration
levels to quartz crystal oscillators, which are exceeding their maximum specifications. Severe drops or
being hit with a hard object could also cause damages to the component.
Quartz crystal oscillators which have suffered from excessive shocks and vibrations may show partial or
full cracks of their built-in crystal plate (crystal blank), or partial cracks of their cementing points, which
might lead to intermittent failures of the component.
Handling Notes for Quartz Crystal Oscillators
- 2 - Jauch Quartz GmbH
3. Mounting
• SMD oscillators
Please make sure not to exceed the appropriate reflow conditions as recommended in the
component specification, such as the peak temperature, the maximum duration, the number of
exposures, the rate of temperature change vs. time, etc.
Hand Soldering can be performed at a temperature of 350°C max. for 3 sec. max.
Soldering on the metallic package surface or the welded packaging edges is not allowed.
Please avoid extreme deformations of the board. Deformations may result in a detachment of
the PCB contact pad, a detachment of the SMD oscillator terminals or cracks in the solder
joints.
Full attention is requested especially when splitting the board with the component already
mounted. Any deformation or bending of the board should be avoided.
Should an automatic mounting system be used, please select an equipment with minor shock
generation, and check for the intensity of the shock before use.
• Pin type components
Please do not apply excessive soldering heat or soldering duration on the oscillator terminals.
Please refer to the recommended wave soldering conditions.
Hand Soldering can be performed at a temperature of 350°C max. for 3 sec. max.
Soldering of the metallic package surface (for example for mechanical fixation) is not allowed.
Do not apply excessive force to cut or bend leads. Doing so could crack the glass insulation or
resin seal and cause a leak which deteriorates the oscillator performance.
When bending crystal oscillator leads for SMD mount, please do not bend the pins directly at
the oscillator package, which might cause a crack in the glass insulation at the body of the
package. We recommend using an appropriate bending tool to keep a safe distance between
the component body and the bending point.
4. Cleaning
Ultrasonic cleaning should be avoided due to the risk of damage to the crystal blank inside the
oscillator.
If ultrasonic cleaning is used, there is a risk of generating mechanical resonances, which may cause an
intermittent or permanent damage of the crystal oscillator. Please be aware that ultrasonic waves
propagate over a board in a way which is not under control of the oscillator manufacturer.
Therefore, it is impossible for us to confirm each customer's mounting and cleaning conditions, such as
the mechanical resonance conditions of the board, the cleaner's type, the applied power, the time, the
placement in the cleaning tank and so on. Consequently, we are unable to define general conditions for
cleaning or guidelines to protect our component against damage.
Handling Notes for Quartz Crystal Oscillators
- 3 - Jauch Quartz GmbH
If ultra-sonic waves are used during cleaning or manufacturing, please make sure to perform an
appropriate inspection to make sure that the quartz crystal oscillator still meets its specification.
Moreover, if there is a change in cleaning conditions, board or placement of the component after a
redesign of the board, please be sure to perform the same inspection for confirmation.
• Cleaning Solvents
It is recommended that aqueous cleaning methods such as demineralized water or highpressure water cleaning is used in order to avoid physical damage caused by solvents. Some
aggressive solvents (such as those containing Chlorine), may cause an oxidation of the metallic
crystal oscillator packages or a discoloration on the component surface or marking. Do not
exceed a temperature of +50°C (120°F) during cleaning.
5. ESD Handling and Packing
All Jauch oscillators use a built-in semiconductor die / chip being based on (H)CMOS technology, which
is sensitive against electrostatic discharges. Hence, for our quartz crystal oscillators, the same typical
rules for ESD protection apply as for other (H)CMOS devices.
We deliver all our oscillator products in anti-static bags to meet the requirements of ESD compliant
production environments. We use various ESD compliant packing methods such as anti-static tube,
foam or ESD compliant tape and reel on our products. We recommend opening packaging tubes or
bags in ESD compliant environment to avoid damage to our products.
6. Operating Conditions
• Supply Voltage and Polarity
Jauch crystal oscillators should be operated inside the specified supply voltage and voltage
tolerances as given in the catalogue or datasheets. An operation outside the supply voltage
specification could cause intermittent or total failures of the crystal oscillator.
Reversed polarity connections may cause the unit to be irreversibly damaged electrically (dead)
and/or mechanically (burn). Therefore, please confirm the correct voltage polarity before
powering up the oscillator device.
• Supply Voltage Limits
Under any circumstance, please apply a supply voltage level to the oscillator which is not
exceeding the absolute maximum value, being typically 7V DC max. for most (H)CMOS IC’s.
Please also note that supply voltages below 70 ~ 80% of the nominal voltage may cause an
unstable operation of the oscillator.
1.储存条件和湿度Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振
晶体振荡器是一种密封装置;因此没有湿气进入它的空腔
包裹.因为在JEDEC中定义了处理条件和生产前调节
J-STD-020只适用于非密封设备,基本上不适用于石英晶体
组件.
然而,应避免石英晶体振荡器在湿热条件下长时间储存.
因此,我们建议将我们的振荡器储存在MSL 2级条件下
避免组件触针的轻微氧化.
带有镀金接触焊盘的SMD振荡器更不容易被焊盘氧化和储存
可以应用符合MSL 1级标准的温度和湿度条件.
在组件储存期间,储存条件不得超过温度限制,因为
在目录或数据表中规定.请注意,储存温度范围适用于
仅组件.
最好将储存温度保持在+10 ~+45°C(50°F ~ 115°F)以下
60%相对湿度,只要包装和卷绕部件.
如果振荡器储存时间过长或储存条件不合适,之前
使用请确保晶体元件仍然符合其规格,方法是执行
目视和电气检查.
2.运输和处理
在运输和制造过程中,请避免强烈的冲击和振动
石英晶体振荡器的水平,超过了它们的最大规格.严重下降或
被硬物撞击也可能导致部件损坏.
遭受过度冲击和振动的石英晶体振荡器可能会出现部分或全部损坏
内置水晶片(水晶坯)全部开裂,或粘接点部分开裂
可能会导致组件的间歇性故障.
3.增加
SMD振荡器
请确保不要超过中推荐的适当回流条件
组件规格,如峰值温度、最大持续时间、数量
暴露、温度随时间变化的速率等.
手工焊接可以在最高350°C的温度下进行.3秒钟.最大值
不允许在金属包装表面或焊接包装边缘进行焊接.
请避免板的极端变形.变形可能会导致
PCB接触焊盘、SMD晶振振荡器端子的分离或焊料中的裂纹
关节.
特别是在拆分已经带有元件的电路板时,需要特别注意
已安装.应避免板的任何变形或弯曲.
如果使用自动安装系统,请选择震动较小的设备
生成,并在使用前检查震动强度.
引脚型组件
请不要在振荡器端子上施加过多的焊接热量或焊接时间.
请参考推荐的波峰焊条件.
手工焊接可以在最高350°C的温度下进行.3秒钟.最大值
不允许焊接金属包装表面(例如用于机械固定).
不要过度用力切割或弯曲导线.这样做可能会使玻璃隔热层破裂或
树脂密封并导致泄漏,从而降低振荡器的性能.
当弯曲用于SMD安装的晶体振荡器引线时,请不要直接弯曲引脚
振荡器封装,这可能会导致壳体上的玻璃绝缘层破裂
包裹.我们建议使用合适的弯曲工具来保持安全距离
部件主体和弯曲点.
4.清洁
应避免超声波清洗,因为存在损坏内部晶体坯的风险
振荡器.
如果使用超声波清洗,存在产生机械共振的风险,这可能导致
晶体振荡器的间歇性或永久性损坏.请注意超声波
以不受振荡器制造商控制的方式在电路板上传播.
因此,我们不可能确认每个客户的安装和清洁条件,例如
纸板的机械共振条件、清洁器的类型、施加的功率、时间
放置在清洗槽中等等.因此,我们无法定义的一般条件
清洁或指南,以保护我们的组件免受损坏.
如果在清洁或制造过程中使用超声波,请确保执行
适当的检查,以确保石英晶体振荡器仍然符合其规格.
此外,如果清洁条件、电路板或元件放置在
板的重新设计,请务必执行相同的检查确认.
清洁剂
建议使用含水清洗方法,如软化水或高压水清洗,以避免溶剂造成的物理损坏.一些
腐蚀性溶剂(如含氯溶剂)可能会导致金属氧化Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振
晶体振荡器封装或部件表面或标记变色.不
清洁过程中温度超过+50°C(120°F).
5.ESD处理和包装
所有Jauch振荡器都使用基于(H)CMOS技术的内置半导体芯片
对静电放电敏感.因此,对于我们的进口晶振石英晶体振荡器,相同的典型
ESD保护规则适用于其他(H)CMOS器件.
我们交付的所有振荡器产品都装在防静电袋中,以满足ESD合规要求
生产环境.我们使用各种符合ESD标准的包装方法,
我们产品上的泡沫或ESD兼容胶带和卷轴.我们建议打开包装管或
袋子放在符合ESD标准的环境中,以避免损坏我们的产品.
6.操作件
电源电压和极性
晶振应在规定的电源电压和电压范围内工作
目录或数据表中给出的公差.电源电压以外的操作
规格可能会导致晶体振荡器的间歇性或完全故障.
极性相反的连接可能会导致设备不可逆的电气损坏(断电)
和/或机械方式(燃烧).因此,请在之前确认正确的电压极性
给振荡器装置加电.
电源电压限值
在任何情况下,请对振荡器施加一个电源电压电平
超过绝对最大值,通常为7V DC最大值.对于大多数(H)CMOS集成电路.
还请注意,低于标称电压70 ~ 80%的电源电压可能会导致
振荡器的不稳定运行.
Jauch集团是石英晶体、晶体振荡器和电池技术的领先专家之一. 成立于1954年,我们现在是频率控制产品行业的领先公司之一,是锂离子和锂聚合物电池未来市场的公认专家.
我们以深入的技术咨询、高应用和认证专业知识、先进的测试环境、高可用性和快速交付的产品以及世界上最大的频率产生设备仓库之一来强调我们的领导地位.
我们在位于维林根-施文宁根的总部投资了生产设施,以及时满足世界各地客户的需求.
现代化的电池装配线,满足高技术要求的电池解决方案,确保生产适用于各种应用的单个电池组.
我们的子公司Jauch Quartz法国、Jauch Quartz英国和Jauch Quartz美国的优秀员工开发和销售开拓性的技术解决方案Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振.
WE ARE JAUCH
The Jauch Group is one of the leading specialists for quartz crystals, crystal oscillators and battery technology. Established in 1954, we are now one of the leading companies in the frequency control products industry and a recognized expert on the future market for lithium ion and lithium polymer batteries.
We underline our claim to leadership with our in-depth technical consulting, high application, and certification expertise, advanced test environments, high availability and fast delivery of products and one of the world’s largest warehouses for frequency generating devices.
We have invested in production facilities at our headquarters in Villingen-Schwenningen to meet customer needs around the world in a timely manner.
A modern batteries assembly line for battery solutions with high technical requirements ensures the production of individual battery packs for various applications.
Our competent staff at our subsidiaries Jauch Quartz France, Jauch Quartz United Kingdom and Jauch Quartz America develop and sell pioneering technology solutions.
JAUCH 博客O 20.0-JO32-G-1V3-1-T1-LF
节奏和能量是推动和驱动世界的力量.我们在 Jauch 的世界尤其受到这些冲动的影响.频率控制产品和电池解决方案决定了我们的日常生活,每天给我们节奏和能量.最重要的是,我们的员工是使 Jauch 成为一家非常特别的公司的因素.
在我们的博客中,我们将带您了解我们的产品、员工和 Jauch 企业文化,为您提供 Jauch G 集团幕后令人兴奋的见解.我们期待与您分享!
从组装到最终产品——石英制造过程的最后阶段Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振
在博文中问产品经理:真正的水晶是用于生产振荡石英晶体的吗?和石英生产流程:从石英块到石英坯,我们已经深入了解了石英生产的第一阶段,石英坯是由什么材料制成的,以及具有一定频率的石英坯需要哪些步骤.由石英块制成.我们现在处于制造成品部件的过程中的以下阶段:石英毛坯已经生产贴片晶振,甚至电极也已经汽化,并且已经检查了频率.现在必须将挡板安装到外壳中.这听起来很简单,但即使在这里也有一两点需要考虑,因此最终的结果是高质量和耐用的石英.安装到外壳中要将坯件安装到外壳中,首先要在外壳底座上涂上导电粘合剂.下一步是固定石英空白.O 16,0-JO32-B-1V3-1-T1-LF
在外壳中安装石英毛坯最终频率调整现在最后一次调整频率.使用两种不同的方法,必要时调整目标频率.一方面,如果频率太高,可以气相沉积额外的电极材料.这一步降低了频率.或者,用等离子体部分去除电极材料可以增加频率.
最终频率调整外壳是密封的接下来,密封外壳.有几种方法可以做到这一点.经常使用"接缝密封"方法.在这个过程中,金属盖和包装用电极焊接在一起.在此博客文章中了解有关此主题的更多信息.
使用接缝密封方法密封外壳最后阶段在进行最终测试、包装和运输之前,石英在激光或特殊墨水的帮助下进行标记.现在石英晶振晶体已经完成,可以安装在板上了.本文件以清晰直观的方式列出了石英制造过程中的所有阶段.
石英晶体振荡器被设计成对环境影响相当不敏感.然而,在处理它们时需要考虑一些要点,以使产品的性能不受影响.
本文件提供了关于正确操作石英晶体振荡器的结构概述.
Handling Notes for Quartz Crystal Oscillators - 1 - Jauch Quartz GmbH quartz crystal oscillators are designed to be quite insensitive against environmental conditions, nevertheless care should be taken during transportation, storing and production to avoid deteriorations of the crystal oscillator performance, or even destruction of the built-in crystal based component.
深圳市壹兆电子科技有限公司
SHENZHENYIZHAOEL.ECTRONICSCO,LTD
晶振人:龚成石英晶振热线:13590198504
晶振厂家电话:0755-27876236QQ:769468702
E-mail:zhaoxiandz@163.com
网址:http://www.zhaoxiandz.com
有源晶振温补晶振销售地址:深圳市南山区南头关口8栋
石英晶体振荡器的操作说明
-1-Jauch晶振石英有限公司
通常,石英晶体振荡器被设计成对环境相当不敏感
条件,但在运输、储存和生产过程中应注意避免
晶体振荡器性能恶化,甚至破坏内置的晶体基
组件.Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振
1. Storage conditions and moisture
A crystal oscillator is a hermetically sealed device; therefore no humidity gets inside the cavity of its
package. As the handling conditions and the pre-production conditioning being defined in JEDEC
J-STD-020 do only apply to non-hermetic devices, they basically do not apply to quartz crystal
components.
Nevertheless, long storage of quartz crystal oscillators at hot and humid conditions should be avoided.
Therefore, we recommend storing our oscillators within the conditions described as MSL level 2, to
avoid slight oxidation of the component’s contact pins.
SMD oscillators with gold-plated contact pads are even less susceptible to pad oxidation, and storage
temperature and humidity conditions according to MSL level 1 may be applied.
During storage of the component, the storage conditions should never exceed the temperature limits as
specified in the catalogue or datasheets. Please note that the storage temperature range applies to the
component only.
Preferably, please keep the storage temperature between +10° ~ +45°C (50°F ~ 115°F) and below
60% RH as long as the component is packed and reeled.
If the oscillators were stored over a long period or the storage conditions were not appropriate, before
using please make sure that the crystal components still comply to their specifications by performing
visual and electrical inspections.
2. Transportation and Handling
During transportation and during the manufacturing process, please avoid high shock and vibration
levels to quartz crystal oscillators, which are exceeding their maximum specifications. Severe drops or
being hit with a hard object could also cause damages to the component.
Quartz crystal oscillators which have suffered from excessive shocks and vibrations may show partial or
full cracks of their built-in crystal plate (crystal blank), or partial cracks of their cementing points, which
might lead to intermittent failures of the component.
Handling Notes for Quartz Crystal Oscillators
- 2 - Jauch Quartz GmbH
3. Mounting
• SMD oscillators
Please make sure not to exceed the appropriate reflow conditions as recommended in the
component specification, such as the peak temperature, the maximum duration, the number of
exposures, the rate of temperature change vs. time, etc.
Hand Soldering can be performed at a temperature of 350°C max. for 3 sec. max.
Soldering on the metallic package surface or the welded packaging edges is not allowed.
Please avoid extreme deformations of the board. Deformations may result in a detachment of
the PCB contact pad, a detachment of the SMD oscillator terminals or cracks in the solder
joints.
Full attention is requested especially when splitting the board with the component already
mounted. Any deformation or bending of the board should be avoided.
Should an automatic mounting system be used, please select an equipment with minor shock
generation, and check for the intensity of the shock before use.
• Pin type components
Please do not apply excessive soldering heat or soldering duration on the oscillator terminals.
Please refer to the recommended wave soldering conditions.
Hand Soldering can be performed at a temperature of 350°C max. for 3 sec. max.
Soldering of the metallic package surface (for example for mechanical fixation) is not allowed.
Do not apply excessive force to cut or bend leads. Doing so could crack the glass insulation or
resin seal and cause a leak which deteriorates the oscillator performance.
When bending crystal oscillator leads for SMD mount, please do not bend the pins directly at
the oscillator package, which might cause a crack in the glass insulation at the body of the
package. We recommend using an appropriate bending tool to keep a safe distance between
the component body and the bending point.
4. Cleaning
Ultrasonic cleaning should be avoided due to the risk of damage to the crystal blank inside the
oscillator.
If ultrasonic cleaning is used, there is a risk of generating mechanical resonances, which may cause an
intermittent or permanent damage of the crystal oscillator. Please be aware that ultrasonic waves
propagate over a board in a way which is not under control of the oscillator manufacturer.
Therefore, it is impossible for us to confirm each customer's mounting and cleaning conditions, such as
the mechanical resonance conditions of the board, the cleaner's type, the applied power, the time, the
placement in the cleaning tank and so on. Consequently, we are unable to define general conditions for
cleaning or guidelines to protect our component against damage.
Handling Notes for Quartz Crystal Oscillators
- 3 - Jauch Quartz GmbH
If ultra-sonic waves are used during cleaning or manufacturing, please make sure to perform an
appropriate inspection to make sure that the quartz crystal oscillator still meets its specification.
Moreover, if there is a change in cleaning conditions, board or placement of the component after a
redesign of the board, please be sure to perform the same inspection for confirmation.
• Cleaning Solvents
It is recommended that aqueous cleaning methods such as demineralized water or highpressure water cleaning is used in order to avoid physical damage caused by solvents. Some
aggressive solvents (such as those containing Chlorine), may cause an oxidation of the metallic
crystal oscillator packages or a discoloration on the component surface or marking. Do not
exceed a temperature of +50°C (120°F) during cleaning.
5. ESD Handling and Packing
All Jauch oscillators use a built-in semiconductor die / chip being based on (H)CMOS technology, which
is sensitive against electrostatic discharges. Hence, for our quartz crystal oscillators, the same typical
rules for ESD protection apply as for other (H)CMOS devices.
We deliver all our oscillator products in anti-static bags to meet the requirements of ESD compliant
production environments. We use various ESD compliant packing methods such as anti-static tube,
foam or ESD compliant tape and reel on our products. We recommend opening packaging tubes or
bags in ESD compliant environment to avoid damage to our products.
6. Operating Conditions
• Supply Voltage and Polarity
Jauch crystal oscillators should be operated inside the specified supply voltage and voltage
tolerances as given in the catalogue or datasheets. An operation outside the supply voltage
specification could cause intermittent or total failures of the crystal oscillator.
Reversed polarity connections may cause the unit to be irreversibly damaged electrically (dead)
and/or mechanically (burn). Therefore, please confirm the correct voltage polarity before
powering up the oscillator device.
• Supply Voltage Limits
Under any circumstance, please apply a supply voltage level to the oscillator which is not
exceeding the absolute maximum value, being typically 7V DC max. for most (H)CMOS IC’s.
Please also note that supply voltages below 70 ~ 80% of the nominal voltage may cause an
unstable operation of the oscillator.
1.储存条件和湿度Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振
晶体振荡器是一种密封装置;因此没有湿气进入它的空腔
包裹.因为在JEDEC中定义了处理条件和生产前调节
J-STD-020只适用于非密封设备,基本上不适用于石英晶体
组件.
然而,应避免石英晶体振荡器在湿热条件下长时间储存.
因此,我们建议将我们的振荡器储存在MSL 2级条件下
避免组件触针的轻微氧化.
带有镀金接触焊盘的SMD振荡器更不容易被焊盘氧化和储存
可以应用符合MSL 1级标准的温度和湿度条件.
在组件储存期间,储存条件不得超过温度限制,因为
在目录或数据表中规定.请注意,储存温度范围适用于
仅组件.
最好将储存温度保持在+10 ~+45°C(50°F ~ 115°F)以下
60%相对湿度,只要包装和卷绕部件.
如果振荡器储存时间过长或储存条件不合适,之前
使用请确保晶体元件仍然符合其规格,方法是执行
目视和电气检查.
2.运输和处理
在运输和制造过程中,请避免强烈的冲击和振动
石英晶体振荡器的水平,超过了它们的最大规格.严重下降或
被硬物撞击也可能导致部件损坏.
遭受过度冲击和振动的石英晶体振荡器可能会出现部分或全部损坏
内置水晶片(水晶坯)全部开裂,或粘接点部分开裂
可能会导致组件的间歇性故障.
3.增加
SMD振荡器
请确保不要超过中推荐的适当回流条件
组件规格,如峰值温度、最大持续时间、数量
暴露、温度随时间变化的速率等.
手工焊接可以在最高350°C的温度下进行.3秒钟.最大值
不允许在金属包装表面或焊接包装边缘进行焊接.
请避免板的极端变形.变形可能会导致
PCB接触焊盘、SMD晶振振荡器端子的分离或焊料中的裂纹
关节.
特别是在拆分已经带有元件的电路板时,需要特别注意
已安装.应避免板的任何变形或弯曲.
如果使用自动安装系统,请选择震动较小的设备
生成,并在使用前检查震动强度.
引脚型组件
请不要在振荡器端子上施加过多的焊接热量或焊接时间.
请参考推荐的波峰焊条件.
手工焊接可以在最高350°C的温度下进行.3秒钟.最大值
不允许焊接金属包装表面(例如用于机械固定).
不要过度用力切割或弯曲导线.这样做可能会使玻璃隔热层破裂或
树脂密封并导致泄漏,从而降低振荡器的性能.
当弯曲用于SMD安装的晶体振荡器引线时,请不要直接弯曲引脚
振荡器封装,这可能会导致壳体上的玻璃绝缘层破裂
包裹.我们建议使用合适的弯曲工具来保持安全距离
部件主体和弯曲点.
4.清洁
应避免超声波清洗,因为存在损坏内部晶体坯的风险
振荡器.
如果使用超声波清洗,存在产生机械共振的风险,这可能导致
晶体振荡器的间歇性或永久性损坏.请注意超声波
以不受振荡器制造商控制的方式在电路板上传播.
因此,我们不可能确认每个客户的安装和清洁条件,例如
纸板的机械共振条件、清洁器的类型、施加的功率、时间
放置在清洗槽中等等.因此,我们无法定义的一般条件
清洁或指南,以保护我们的组件免受损坏.
如果在清洁或制造过程中使用超声波,请确保执行
适当的检查,以确保石英晶体振荡器仍然符合其规格.
此外,如果清洁条件、电路板或元件放置在
板的重新设计,请务必执行相同的检查确认.
清洁剂
建议使用含水清洗方法,如软化水或高压水清洗,以避免溶剂造成的物理损坏.一些
腐蚀性溶剂(如含氯溶剂)可能会导致金属氧化Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振
晶体振荡器封装或部件表面或标记变色.不
清洁过程中温度超过+50°C(120°F).
5.ESD处理和包装
所有Jauch振荡器都使用基于(H)CMOS技术的内置半导体芯片
对静电放电敏感.因此,对于我们的进口晶振石英晶体振荡器,相同的典型
ESD保护规则适用于其他(H)CMOS器件.
我们交付的所有振荡器产品都装在防静电袋中,以满足ESD合规要求
生产环境.我们使用各种符合ESD标准的包装方法,
我们产品上的泡沫或ESD兼容胶带和卷轴.我们建议打开包装管或
袋子放在符合ESD标准的环境中,以避免损坏我们的产品.
6.操作件
电源电压和极性
晶振应在规定的电源电压和电压范围内工作
目录或数据表中给出的公差.电源电压以外的操作
规格可能会导致晶体振荡器的间歇性或完全故障.
极性相反的连接可能会导致设备不可逆的电气损坏(断电)
和/或机械方式(燃烧).因此,请在之前确认正确的电压极性
给振荡器装置加电.
电源电压限值
在任何情况下,请对振荡器施加一个电源电压电平
超过绝对最大值,通常为7V DC最大值.对于大多数(H)CMOS集成电路.
还请注意,低于标称电压70 ~ 80%的电源电压可能会导致
振荡器的不稳定运行.
Jauch集团是石英晶体、晶体振荡器和电池技术的领先专家之一. 成立于1954年,我们现在是频率控制产品行业的领先公司之一,是锂离子和锂聚合物电池未来市场的公认专家.
我们以深入的技术咨询、高应用和认证专业知识、先进的测试环境、高可用性和快速交付的产品以及世界上最大的频率产生设备仓库之一来强调我们的领导地位.
我们在位于维林根-施文宁根的总部投资了生产设施,以及时满足世界各地客户的需求.
现代化的电池装配线,满足高技术要求的电池解决方案,确保生产适用于各种应用的单个电池组.
我们的子公司Jauch Quartz法国、Jauch Quartz英国和Jauch Quartz美国的优秀员工开发和销售开拓性的技术解决方案Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振.
WE ARE JAUCH
The Jauch Group is one of the leading specialists for quartz crystals, crystal oscillators and battery technology. Established in 1954, we are now one of the leading companies in the frequency control products industry and a recognized expert on the future market for lithium ion and lithium polymer batteries.
We underline our claim to leadership with our in-depth technical consulting, high application, and certification expertise, advanced test environments, high availability and fast delivery of products and one of the world’s largest warehouses for frequency generating devices.
We have invested in production facilities at our headquarters in Villingen-Schwenningen to meet customer needs around the world in a timely manner.
A modern batteries assembly line for battery solutions with high technical requirements ensures the production of individual battery packs for various applications.
Our competent staff at our subsidiaries Jauch Quartz France, Jauch Quartz United Kingdom and Jauch Quartz America develop and sell pioneering technology solutions.
JAUCH 博客O 20.0-JO32-G-1V3-1-T1-LF
节奏和能量是推动和驱动世界的力量.我们在 Jauch 的世界尤其受到这些冲动的影响.频率控制产品和电池解决方案决定了我们的日常生活,每天给我们节奏和能量.最重要的是,我们的员工是使 Jauch 成为一家非常特别的公司的因素.
在我们的博客中,我们将带您了解我们的产品、员工和 Jauch 企业文化,为您提供 Jauch G 集团幕后令人兴奋的见解.我们期待与您分享!
从组装到最终产品——石英制造过程的最后阶段Jauch晶振,Q24.0-JXS32-12-30/30-T1-FU-LF无源晶振
在博文中问产品经理:真正的水晶是用于生产振荡石英晶体的吗?和石英生产流程:从石英块到石英坯,我们已经深入了解了石英生产的第一阶段,石英坯是由什么材料制成的,以及具有一定频率的石英坯需要哪些步骤.由石英块制成.我们现在处于制造成品部件的过程中的以下阶段:石英毛坯已经生产贴片晶振,甚至电极也已经汽化,并且已经检查了频率.现在必须将挡板安装到外壳中.这听起来很简单,但即使在这里也有一两点需要考虑,因此最终的结果是高质量和耐用的石英.安装到外壳中要将坯件安装到外壳中,首先要在外壳底座上涂上导电粘合剂.下一步是固定石英空白.O 16,0-JO32-B-1V3-1-T1-LF
在外壳中安装石英毛坯最终频率调整现在最后一次调整频率.使用两种不同的方法,必要时调整目标频率.一方面,如果频率太高,可以气相沉积额外的电极材料.这一步降低了频率.或者,用等离子体部分去除电极材料可以增加频率.
最终频率调整外壳是密封的接下来,密封外壳.有几种方法可以做到这一点.经常使用"接缝密封"方法.在这个过程中,金属盖和包装用电极焊接在一起.在此博客文章中了解有关此主题的更多信息.
使用接缝密封方法密封外壳最后阶段在进行最终测试、包装和运输之前,石英在激光或特殊墨水的帮助下进行标记.现在石英晶振晶体已经完成,可以安装在板上了.本文件以清晰直观的方式列出了石英制造过程中的所有阶段.
石英晶体振荡器被设计成对环境影响相当不敏感.然而,在处理它们时需要考虑一些要点,以使产品的性能不受影响.
本文件提供了关于正确操作石英晶体振荡器的结构概述.
Handling Notes for Quartz Crystal Oscillators - 1 - Jauch Quartz GmbH quartz crystal oscillators are designed to be quite insensitive against environmental conditions, nevertheless care should be taken during transportation, storing and production to avoid deteriorations of the crystal oscillator performance, or even destruction of the built-in crystal based component.
深圳市壹兆电子科技有限公司
SHENZHENYIZHAOEL.ECTRONICSCO,LTD
晶振人:龚成石英晶振热线:13590198504
晶振厂家电话:0755-27876236QQ:769468702
E-mail:zhaoxiandz@163.com
网址:http://www.zhaoxiandz.com
有源晶振温补晶振销售地址:深圳市南山区南头关口8栋
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