致尊敬的顾客
关于产品目录等资料中的旧公司名称
NEC电子公司与株式会社瑞萨科技于2010年4月1日进行业务整合(合并),整合后的
新公司暨“瑞萨电子公司”继承两家公司的所有业务。因此,本资料中虽还保留有旧公司
名称等标识,但是并不妨碍本资料的有效性,敬请谅解。
瑞萨电子公司网址:http://www.renesas.com
2010年4月1日
瑞萨电子公司
【发行】瑞萨电子公司(
【业务咨询】http://www.renesas.com/inquiry
http://www.renesas.com)
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晶闸管/双向晶闸管
文字符号的说明
1. 普通功率半导体器件
符号 项目 定义或说明
R
R
R
R
R
Z
th
Z
th(j-a)
Z
th(j-c)
Z
th(j-f)
T
a
T
f
T
c
T
j
th
th(j-a)
th(j-c)
th(j-f)
th(c-f)
热阻 表示由结的功耗使热流处于平衡状态时,结温与外部的指定点相比,每单
位功率上升几度的值。
结/周围环境之间的热阻 由结到周围环境的热阻。
结/外壳之间的热阻 由结到外壳的热阻。
结/散热板之间的热阻 由结到散热板的热阻。
接触热阻
由外壳到散热板的热阻。
(外壳/散热板之间的热
阻)
瞬态热阻 表示在外壳温度 (柱螺栓温度)或者环境温度一定的情况下,结的功耗
处于脉冲状态时,结温与外部的指定点相比,每单位功率上升几度的值。
结/周围环境之间的
由结到周围环境的瞬态热阻。
瞬态热阻
结/外壳之间的
由结到外壳表面的瞬态热阻。
瞬态热阻
结/散热板之间的
由结到散热板的瞬态热阻。
瞬态热阻
环境温度 表示在自冷或者风冷的方式下使用时,不受发热体影响时的空气温度。
散热板温度 在用于半导体器件的散热板上规定的1个点的温度。
外壳温度 在半导体器件的外壳上规定的一个点的温度。
额定结温 作为额定标准规定的器件结温,以器件运行中的最高容许温度与最低容许
温度表示。
T
stg
额定保存温度 在不外加功率的状态下能够保存半导体器件的温度,以最高容许温度与最
低容许温度表示。
RCJ27G0018-0100/Rev.1.00 January 2008 Page 1 of 9
2. 晶闸管
符号 项目 定义或说明
晶闸管 / 双向晶闸管
文字符号的说明
V
RRM
V
RSM
V
R(DC)
V
DRM
V
DSM
V
D(DC)
额定反向重复峰值电压 在额定结温范围内不向栅极 /阴极之间输入信号的状态下,每个周期可
外加的反向重复峰值电压。
小功率器件中,在栅极/阴极之间连接指定的电阻。
额定反向不重复峰值电压 在额定结温范围内不向栅极/阴极之间输入信号的状态下,可外加不超
过相当于工业用电频率正弦半波时限的反向不重复峰值电压。
小功率器件中,在栅极/阴极之间连接指定的电阻。
额定直流反向电压 在额定结温范围内不向栅极 /阴极之间输入信号的状态下,在器件的反
向上可外加的直流电压的最大值。
额定断态重复峰值电压 在额定结温范围内不向栅极 /阴极之间输入信号的状态下,每个周期可
外加的断态重复峰值电压。断态重复峰值电压是指,在施加到器件的断
态电压中,除不重复过渡电压外,包含重复过渡电压的断态电压的瞬时
最大值。
小功率器件中,在栅极/阴极之间连接指定的电阻。
额定断态不重复峰值电压 在额定结温范围内不向栅极/阴极之间输入信号的状态下,可外加不超
过相当于工业用电频率正弦半波时限的断态不重复峰值电压。断态不
重复峰值电压是指,在施加到器件的断态电压中,不重复过渡电压的瞬
时最大值。
小功率器件中,在栅极/阴极之间连接指定的电阻。
额定直流断态电压 在额定结温范围内不向栅极 /阴极之间输入信号的状态下,可在器件正
向上外加的直流电压最大值。
小功率器件中,在栅极/阴极之间连接指定的电阻。
dv/dt
V
TM
I
T(RMS)
I
T(AV)
I
TSM
2
t
I
断态电压临界上升率 在额定最高结温下不向栅极 /阴极之间输入信号的状态下,不从断开状
态转换到接通状态的最大断态电压 (有指定振幅的指数函数状外加断
态电压)的上升率。
dv
0.632V
=
dt
ℸ໘ˈ V
D
τ
˖ᣛᅮⱘᮁᗕ⬉
D
τ˖ᣛ᭄ߑ᭄⊶ᔶⱘᯊ䯈ᐌ᭄
小功率器件中,在栅极/阴极之间连接指定的电阻。
通态电压 在指定的外壳 (或者指定的点)温度下,通入有指定振幅的工业用电
频率的正弦半波通态电流时,产生的电压下降峰值。
额定有效通态电流 在指定的外壳 (或者指定的点)温度下,可连续通入器件的通态电流
的有效值。
额定平均通态电流 在指定的外壳 (或者指定的点)温度、电阻负载或者感性负载下,可
正向连续通入的工业用电频率的正弦半波 (180 度导通)电流的平均
值。
额定电涌通态电流 在额定结温的范围内可通入的不重复性工业用电频率的正弦半波通态
电流的峰值。
该值表示1个周期的值或者周期数的函数。
额定电流平方时间积 在半个周期的期间内对额定电涌电流作为峰值的正弦半波电流的平方
进行时间积分的值。
π
ω
2
I
= ∫ I
t
2
sin2 ωt dt
TSM
0
(接下页)
RCJ27G0018-0100/Rev.1.00 January 2008 Page 2 of 9
符号 项目 定义或说明
晶闸管 / 双向晶闸管
文字符号的说明
di/dt
I
H
I
L
I
RRM
I
DRM
P
GM
P
G(AV)
I
FGM
V
RGM
V
FGM
I
GT
额定通态电流临界上升率 在指定的外壳 (或者指定的点)温度、指定的断态电压、指定的栅极
条件以及小于等于60Hz的频率下,晶闸管由断开状态转换为接通状态
时,晶闸管能够承受的最大通态电流上升率。
保持电流 在指定的结温、栅极条件以及断态电压下,维持晶闸管接通状态所必须
的最小阳极电流。
闭锁电流 在指定的结温、断态电压以及栅极条件下,由断开状态转换到接通状态
后立即除去栅极触发电流后,保持晶闸管接通状态所必须的最小阳极
电流。
反向电流 在额定最高结温下,反向外加拥有与额定反向重复峰值电压相同峰值
的工业用电频率的正弦半波电压时,通入的反向电流峰值。
小功率器件中,在栅极/阴极之间连接指定的电阻。
断态电流 在额定最高结温下,正向外加拥有与额定断态重复峰值电压相同峰值
的工业用电频率的正弦半波电压时,通入的断态电流峰值。
小功率器件中,在栅极/阴极之间连接指定的电阻。
额定栅极峰值损耗 在额定结温范围内,可在栅极 /阴极之间正向上消耗的指定时限的最大
容许功耗的峰值。
额定栅极平均损耗 在额定结温范围内,可在栅极 /阴极之间的正向上消耗的最大容许功耗
的平均值。
额定正向栅极峰值电流 在额定结温范围内,可在栅极 /阴极之间正向通入的电流峰值。
额定反向栅极峰值电压 在额定结温范围内,可在栅极 /阴极之间反向外加的电压峰值。
额定正向栅极峰值电压 在额定结温范围内,可在栅极 /阴极之间正向外加的电压峰值。
栅极触发电流 在结温为25°C、6V的断态电压和指定的负载电阻下,晶闸管由断开状
态转换到接通状态所必须的最小栅极直流电流。不包含通入到与小功
率器件连接的栅极电阻的电流。
V
GT
V
GD
P
T(AV)
t
gt
栅极触发电压 在结温为25°C、6V的断态电压和指定的负载电阻下,晶闸管由断开状
态转换到接通状态所必须的最小栅极直流电压。
栅极非触发电压 在额定最高结温、外加指定断态电压的状态下,不会发生由断开状态转
换到接通状态的最大栅极直流电压。
通态损耗 通入指定导通角及电流波形的通态电流时,在 1个周期内晶闸管内部所
产生的功耗平均值。
接通时间 在指定的结温下,外加 1/2额定断态重复峰值电压之后,通入指定的栅
极电流后就为接通状态,然后通入指定 di/dt 下的指定通态电流时,外
加栅极电流后的外加断态电压下降至初始值的10%时所需时间。另外,
把外加栅极电流后的外加电压降至初始值的 90%时所需时间称为延迟
时间,从 90%降至 10%所需要的时间称为上升时间。两者之和为接通
时间。
(接下页)
RCJ27G0018-0100/Rev.1.00 January 2008 Page 3 of 9
符号 项目 定义或说明
晶闸管 / 双向晶闸管
文字符号的说明
t
q
Qrr
断开时间 在额定最高结温下,通入指定的通态电流后,外加指定的反向电压后通
态电流被截止,接着按照指定的电压上升率提高断态电压,在达到指定
的断态电压的电路条件下,从通态电流为零的瞬间再次外加正向电压
后,能保持不转换为接通状态的最短时间。
⬉
⬉⌕
tq
ᯊ䯈
反向恢复电荷 是在指定的结温下,通入指定的通态电流后按照指定的电流减少率由
接通状态转换到断开状态时,在器件内部积累的电荷;是从接通状态
转换到断开状态时反向通入的反向恢复电流的时间积分值。
RCJ27G0018-0100/Rev.1.00 January 2008 Page 4 of 9
3. 双向晶闸管
符号 项目 定义或说明
晶闸管 / 双向晶闸管
文字符号的说明
V
DRM
V
DSM
V
TM
I
T(RMS)
I
TSM
2
t
I
di/dt
dv/dt
额定断态重复峰值电压 在额定结温范围内,不向栅极/T1引脚之间输入信号的状态下,可外加
的断态重复峰值电压。断态重复峰值电压是指,向器件双向施加的断态
电压中,除不重复过渡电压外,包含重复过渡电压的电压瞬时最大值。
额定断态不重复峰值电压 在额定结温范围内,不向栅极/T1引脚之间输入信号的状态下,可外加
不超过相当于工业用电频率正弦半波时限的断态不重复峰值电压。断
态不重复峰值电压是指,在施加到器件的断态电压中,不重复过渡电压
的瞬时最大值。
通态电压 在分别双向通入具有指定外壳 (或者指定的点)温度及指定振幅的工
业用电频率的正弦半波电流时产生的通态电压中,是显示较大值方向
的峰值。
额定有效通态电流 在指定的外壳 (或者指定的点)温度下,可连续通入的工业用电频率
正弦波 (360度导通)电流的有效值。
额定电涌通态电流 在额定结温范围内通入的不重复性工业用电频率正弦波电流的峰值。
该值表示1个周期的值或者周期数的函数。
额定电流平方时间积 在半个周期的期间内,对额定电涌通态电流作为峰值的正弦半波电流
的平方进行时间积分的值。
通态电流临界上升率 在指定的外壳(或者指定的点)温度、1/2额定断态重复峰值电压、指
定的栅极条件以及不超过60Hz的频率下,双向晶闸管由断开状态转换
为接通状态时,双向晶闸管能够承受的最大通态电流上升率。
断态电压临界上升率 在额定最高结温下,不向栅极 /阴极之间外加信号的状态下,不从断开
状态转换到接通状态的最大断态电压 (有指定振幅的指数函数状外加
断态电压)的上升率。
dv
0.632V
=
dt
ℸ໘ˈ V
D
τ
˖ᣛᅮⱘᮁᗕ⬉
D
τ˖ᣛ᭄ߑ᭄⊶ᔶⱘᯊ䯈ᐌ᭄
I
DRM
P
GM
P
G(AV)
V
GM
I
GM
V
GT
断态电流 在额定最高结温下,分别双向外加具有与额定断态重复峰值电压相同
峰值的工业用电频率的正弦半波电压时,在通入的断态电流中,是显示
较大值方向的峰值。
额定栅极峰值损耗 在额定结温范围内,可在栅极/T1引脚之间的各自方向上消耗的指定时
限的最大容许功耗的峰值。
额定栅极平均损耗 在额定结温范围内,可在栅极/T1引脚之间的各自方向上消耗的最大容
许功耗平均值。
额定栅极峰值电压 在额定结温范围内,可在栅极/T1引脚之间的双向上分别外加工业用电
频率的正弦半波电压的峰值。
额定栅极峰值电流 在额定结温范围内,可在栅极/T1引脚之间的双向上分别通入的工业用
电频率的正弦半波电流的峰值。
栅极触发电压 在结温为25°C、6V的断态电压和指定的负载电阻下,双向晶闸管由断
开状态转换到接通状态所必须的最小栅极直流电压。根据 T1引脚和栅
极的极性,最多存在4种值。
(接下页)
RCJ27G0018-0100/Rev.1.00 January 2008 Page 5 of 9
符号 项目 定义或说明
晶闸管 / 双向晶闸管
文字符号的说明
I
GT
V
GD
P
T(AV)
(dv/dt)c
栅极触发电流 在结温为25°C、6V的断态电压和指定的负载电阻下,双向晶闸管由断
开状态转换到接通状态所必须的最小栅极直流电流。根据 T1引脚和栅
极的极性,最多存在4种值。
栅极非触发电压 在额定最高结温、外加指定的断态电压状态下,不会发生从断开状态转
换到接通状态的最大栅极直流电压。
通态损耗 通入有正弦波的指定导通角的通态电流时,在 1个周期内双向晶闸管内
部所产生功耗的平均值。
转换时的断态电压临界上
升率
在额定最高结温内,从通入指定通态电流的状态,在指定的电流减少率
下减少电流并使其反转后,施加与前面导通方向相反的指定电压时,不
会发生反向导通的最大断态电压上升率。是双向上的值中小的值。
RCJ27G0018-0100/Rev.1.00 January 2008 Page 6 of 9
修订记录
晶闸管 / 双向晶闸管
文字符号的说明
Rev.
1.00 2008.01.30
发行日
修订内容
页修订处
—
初版发行
RCJ27G0018-0100/Rev.1.00 January 2008 Page 7 of 9
晶闸管 / 双向晶闸管
文字符号的说明
Notes regarding these materials
Notes regarding these materials
1. This document is provided for reference purposes only so that Renesas customers may select the appropriate
Renesas products for their use. Renesas neither makes warranties or representations with respect to the
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this document.
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programs, algorithms, and application circuit examples.
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applications such as the development of weapons of mass destruction or for the purpose of any other military
use. When exporting the products or technology described herein, you should follow the applicable export
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application circuit examples, is current as of the date this document is issued. Such information, however, is
subject to change without any prior notice. Before purchasing or using any Renesas products listed in this
document, please confirm the latest product information with a Renesas sales office. Also, please pay regular
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© 2008. Renesas Technology Corp., All rights reserved.
RCJ27G0018-0100/Rev.1.00 January 2008 Page 8 of 9
晶闸管 / 双向晶闸管
文字符号的说明
关于利用本资料时的注意事项
⊼ᛣ
ᴀ᭛াᰃখ㗗䆥᭛ˈࠡ义᠔䕑㣅᭛⠜“Cautions”᳝ℷᓣᬜDŽ
݇Ѣ߽⫼ᴀ䌘᭭ᯊⱘ⊼ᛣџ乍
1. ᴀ䌘᭭ᰃЎњ䅽⫼᠋ḍ⫼䗨䗝ᢽড়䗖ⱘᴀ݀ৌѻકⱘখ㗗䌘᭭ˈᇍѢᴀ䌘᭭Ё᠔䆄䕑ⱘᡔᴃֵᙃˈᑊ䴲ᛣ
ⴔᇍᴀ݀ৌ㗙ϝ㗙ⱘⶹ䆚ѻᴗঞ݊Ҫᴗ߽خߎֱ䆕ᇍᅲᮑᴗ䖯㸠ⱘᡓ䇎DŽ
2. ᇍѢՓ⫼ᴀ䌘᭭᠔䆄䕑ⱘѻક᭄ǃǃ㸼ǃᑣǃㅫ⊩ঞ݊Ҫᑨ⫼⬉䏃՟㗠ᓩ䍋ⱘᤳᆇ㗙ᇍϝ㗙ⱘ
ⶹ䆚ѻᴗঞ݊Ҫᴗ߽䗴៤։⢃ˈᴀ݀ৌϡᡓᢙӏԩ䋷ӏDŽ
3. ϡ㛑ᇚᴀ䌘᭭᠔䆄䕑ⱘѻકᡔᴃ⫼Ѣ㾘⸈ണᗻ℺఼ⱘᓔথㄝⳂⱘǃݯџⳂⱘ݊Ҫⱘݯ䳔⫼䗨ᮍ䴶DŽ
ˈߎষᯊᖙ乏䙉ᅜ᮹ᴀⱘlj∛ঞ䌌ᯧ⊩NJঞ݊ҪߎষⱘⳌ݇⊩Ҹᑊሹ㸠䖭ѯ⊩ҸЁ㾘ᅮⱘᖙ㽕
㓁DŽ
4. ᴀ䌘᭭᠔䆄䕑ⱘѻક᭄ǃǃ㸼ǃᑣǃㅫ⊩ҹঞ݊Ҫᑨ⫼⬉䏃՟ㄝ᠔ֵ᳝ᙃഛЎᴀ䌘᭭থ㸠ᯊⱘݙᆍˈ
ᴀ݀ৌ᳝ৃ㛑خџܜ䗮ⶹⱘᚙމϟˈᇍᴀ䌘᭭᠔䆄䕑ⱘѻક㗙ѻક㾘Ḑ䖯㸠ᬍDŽ᠔ҹ䌁фՓ⫼
ᴀ݀ৌⱘᇐԧѻકПࠡˈ䇋џܜᴀ݀ৌⱘ㧹Ϯにষ⹂䅸᳔ᮄⱘֵᙃᑊ㒣ᐌ⬭ᛣᴀ݀ৌ䗮䖛݀ৌЏ义
(http://www.renesas.com)ㄝ݀ᓔⱘ᳔ᮄֵᙃDŽ
5. ᇍѢᴀ䌘᭭Ё᠔䆄䕑ⱘֵᙃˈࠊᯊ៥Ӏሑֱ䆕ߎ⠜ᯊⱘ㊒⹂ᗻˈԚϡᡓᢙᴀ䌘᭭ⱘভ䗄ϡᔧ㗠㟈Փ乒
ᅶ䙁ফᤳ༅ㄝⱘӏԩⳌ݇䋷ӏDŽ
6. Փ⫼ᴀ䌘᭭᠔䆄䕑ⱘѻક᭄ǃǃ㸼ㄝ᠔⼎ⱘᡔᴃݙᆍǃᑣǃㅫ⊩ঞ݊Ҫᑨ⫼⬉䏃՟ᯊˈϡҙ㽕ᇍ᠔
Փ⫼ⱘᡔᴃֵᙃ䖯㸠⣀䆘Ӌˈ䖬㽕ᇍᭈϾ㋏㒳䖯㸠ܙߚⱘ䆘ӋDŽ䇋乒ᅶ㞾㸠䋳䋷ˈ䖯㸠ᰃ৺䗖⫼ⱘ߸ᮁDŽ
ᴀ݀ৌᇍѢᰃ৺䗖⫼ϡ䋳ӏԩ䋷ӏDŽ
7. ᴀ䌘᭭Ё᠔䆄䕑ⱘѻકᑊ䴲䩜ᇍϛϔߎ⦄ᬙ䱰ᰃ䫭䇃䖤㸠ህӮ࿕㚕ࠄҎⱘ⫳㒭Ҏԧᏺᴹᆇⱘᴎ఼ǃ
㋏㒳བ⾡ᅝܼ㺙㕂㗙䖤䕧Ѹ䗮⫼ⱘǃ⭫ǃ➗⚻ࠊǃ㟾఼ẄǃḌ㛑ǃ⍋ᑩЁ㒻⫼ⱘᴎ఼㋏㒳ㄝ
㗠䆒䅵ࠊ䗴ⱘ⡍߿ᰃᇍѢક䋼ৃ䴴ᗻ㽕∖ᵕ催ⱘᴎ఼㋏㒳ㄝ˄ᇚᴀ݀ৌᣛᅮ⫼Ѣ≑䔺ᮍ䴶ⱘѻક⫼
Ѣ≑䔺ᯊ䰸˅DŽབᵰ㽕⫼ѢϞ䗄ⱘⳂⱘˈ䇋ࡵᖙџܜᴀ݀ৌⱘ㧹Ϯにষ䆶DŽˈᇍѢ⫼ѢϞ䗄Ⳃⱘ
㗠䗴៤ⱘᤳ༅ㄝˈᴀ݀ৌὖϡ䋳䋷DŽ
8. 䰸Ϟ䗄乍ݙᆍˈϡ㛑ᇚᴀ䌘᭭Ё䆄䕑ⱘѻક⫼Ѣҹϟ⫼䗨DŽབᵰ⫼Ѣҹϟ⫼䗨㗠䗴៤ⱘᤳ༅ˈᴀ݀ৌ
ὖϡ䋳䋷DŽ
1˅⫳㓈ᣕ㺙㕂DŽ
2˅ỡඟѢҎԧՓ⫼ⱘ㺙㕂DŽ
3˅⫼Ѣ⊏⭫˄ߛ䰸ᙷ䚼ǃ㒭㥃ㄝ˅ⱘ㺙㕂DŽ
4˅݊ҪⳈᕅડࠄҎⱘ⫳ⱘ㺙㕂DŽ
9. Փ⫼ᴀ䌘᭭᠔䆄䕑ⱘѻકᯊˈᇍѢ᳔乱ᅮؐǃᎹ⬉⑤⬉ⱘ㣗ೈǃᬒ⛁⡍ᗻǃᅝ㺙ᴵӊঞ݊Ҫᴵӊ䇋
ᴀ݀ৌ㾘ᅮⱘֱ䆕㣗ೈݙՓ⫼DŽབᵰ䍙ߎњᴀ݀ৌ㾘ᅮⱘֱ䆕㣗ೈՓ⫼ᯊˈᇍѢ⬅ℸ㗠䗴៤ⱘᬙ䱰ߎ⦄
ⱘџᬙˈᴀ݀ৌᇚϡᡓᢙӏԩ䋷ӏDŽ
10.ᴀ݀ৌϔⳈ㟈Ѣᦤ催ѻકⱘ䋼䞣ৃ䴴ᗻˈԚϔ㠀ᴹ䇈ˈᇐԧѻકᘏӮҹϔᅮⱘὖ⥛থ⫳ᬙ䱰ǃ㗙⬅
ѢՓ⫼ᴵӊϡৠ㗠ߎ⦄䫭䇃䖤㸠ㄝDŽЎњ䙓ܡᴀ݀ৌⱘѻકথ⫳ᬙ䱰㗙䫭䇃䖤㸠㗠ᇐ㟈Ҏ䑿џᬙ☿♒
䗴៤⼒Ӯᗻⱘᤳ༅ˈᏠᳯᅶ᠋㛑㞾㸠䋳䋷䖯㸠ݫԭ䆒䅵ǃ䞛পᓊ⚻ᇍㄪঞ䖯㸠䰆ℶ䫭䇃䖤㸠ㄝⱘᅝܼ䆒䅵
˄ࣙᣀ⹀ӊ䕃ӊϸᮍ䴶ⱘ䆒䅵˅ҹঞ㗕࣪໘⧚ㄝˈ䖭ᰃЎᴎ఼㋏㒳ⱘߎֱ䆕DŽ⡍߿ᰃ⠛ᴎⱘ䕃ӊˈ
⬅Ѣ⣀䖯㸠偠䆕ᕜೄ䲒ˈ᠔ҹ㽕∖乒ᅶࠊ䗴ⱘ᳔㒜ⱘᴎ఼ঞ㋏㒳Ϟ䖯㸠ᅝܼẔ偠ᎹDŽ
11. བᵰᡞᴀ䌘᭭᠔䆄䕑ⱘѻકҢ݊䕑ԧ䆒Ϟϟˈ᳝ৃ㛑䗴៤၈ܓ䇃৲ⱘ䰽DŽ乒ᅶᇚᴀ݀ৌѻકᅝ㺙ࠄ
乒ᅶⱘ䆒Ϟᯊˈ䇋乒ᅶ㞾㸠䋳䋷ᇚᴀ݀ৌѻક䆒㕂Ўϡᆍᯧ࠹㨑ⱘᅝܼ䆒䅵DŽབᵰҢ乒ᅶⱘ䆒Ϟ࠹㨑㗠
䗴៤џᬙᯊˈᴀ݀ৌᇚϡᡓᢙӏԩ䋷ӏDŽ
12.ᕫࠄᴀ݀ৌⱘџܜк䴶䅸ৃᯊˈϡৃᇚᴀ䌘᭭ⱘϔ䚼ߚ㗙ܼ䚼䕀䕑㗙ࠊDŽ
13.བᵰ䳔㽕њ㾷݇Ѣᴀ䌘᭭ⱘ䆺㒚ݙᆍˈ㗙᳝݊Ҫ݇ᖗⱘ䯂乬ˈ䇋ᴀ݀ৌⱘ㧹Ϯにষ䆶DŽ
© 2008. Renesas Technology Corp., All rights reserved.
RCJ27G0018-0100/Rev.1.00 January 2008 Page 9 of 9
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