2801-2-00-50-00-00-07-0中文资料

中华人民共和国国家职业卫生标准（GBZ 2-2002）
工作场所有害因素职业接触限值
Occupational Exposure Limit for Hazardous Agents in the Workplace
说明
PC-TWA 时间加权平均容许浓度（8小时）。

PC-MAC 最高容许浓度，指在一个工作日内任何时间都不应超过的浓度。

PC-STEL 短时间接触容许浓度（15分钟）。

* 表1：数值系根据“超限系数”推算；表2：粉尘TWA的接触上限值。

** 表1：“其他粉尘”指不含有石棉且游离SiO2含量低于10%，不含有毒物质，尚未制订专项卫生标准的粉尘。

总粉尘指直径为40mm的滤膜，按标准粉尘测定方法采样所得的粉尘。

呼尘呼吸性粉尘，指按呼吸性粉尘采样方法所采集的可进入肺泡的粉尘粒子，其空气动力学直径均在7.07μｍ以下，空气动力学直径5μｍ粉尘粒子的采样
效率为50%。

表1工作场所空气中有毒物质容许浓度(mg/m3)
表2工作场所空气中粉尘容许浓度（mg/m3）。

中华人民共和国国家职业卫生标准（GBZ 2-2002）
工作场所有害因素职业接触限值
Occupational Exposure Limit for Hazardous Agents in the Workplace
说明
PC-TWA 时间加权平均容许浓度（8小时）。

PC-MAC 最高容许浓度，指在一个工作日内任何时间都不应超过的浓度。

PC-STEL 短时间接触容许浓度（15分钟）。

* 表1：数值系根据“超限系数”推算；表2：粉尘TWA的接触上限值。

** 表1：“其他粉尘”指不含有石棉且游离SiO2含量低于10%，不含有毒物质，尚未制订专项卫生标准的粉尘。

总粉尘指直径为40mm的滤膜，按标准粉尘测定方法采样所得的粉尘。

呼尘呼吸性粉尘，指按呼吸性粉尘采样方法所采集的可进入肺泡的粉尘粒子，其空气动力学直径均在7.07μｍ以下，空气动力学直径5μｍ粉尘粒子的采样
效率为50%。

表1工作场所空气中有毒物质容许浓度(mg/m3)
表2工作场所空气中粉尘容许浓度（mg/m3）。

第五章功能•參數說明00系統參數機種識別出廠設定值工廠設定設定範圍依機種顯示額定電流顯示出廠設定值工廠設定設定範圍依機種顯示230V系列功率[馬力] 0.75[1]1.5[2]2.2[3]3.7[5]5.5[7.5]7.5[10]11[15]15[20]18.5[25]22[30]30[40]37[50]45[60]55[75]75[100]機種代碼 4 6 8 10 12141618202224 26 28 3032定轉矩額定電流5 7.5 11 17 253349657590120 146 182 220300變轉矩額定電流6.3 9.4 13.8 21.331.341.361.381.393.8113150 183 228 275375最高載波頻率15kHz 10kHz6kHz460V系列功率[馬力] 0.75[1]1.5[2]2.2[3]3.7[5]5.5[7.5]7.5[10]11[15]15[20]18.5[25]22[30]30[40]37[50]45[60]55[75]75[100]機種代碼 5 7 09 11 13151719212325 27 29 3133定轉矩額定電流3 4.2 6 8.5 13182432384560 73 91 110150變轉矩額定電流3.8 5.3 7.5 10.616.322.5304047.556.375 91.3 113.8138188最高載波頻率 15kHz 10kHz6kHz00-00參數決定驅動器容量，在出廠時已設定於本參數內。

同時，可讀取參數（00-01）的電流值是否為該機種的額定電流。

參數00-00對應參數00-01電流的顯示值。

出廠設定為定轉矩額定，若需使用變轉矩額定請設定參數00-12。

參數重置設定出廠設定值0設定內容10 參數重置（基底頻率為60Hz）9參數重置（基底頻率為50Hz）位元設定Bit 0 1 參數不可讀20 1 Bit11頻率、轉矩命令不可改(僅限於PU05) 21 2 Bit21數位操作器（PU05）不能運作（Run）22 4位元設定的輸入方法：本系列有些功能的參數設定是採用位元設定法來設定參數，此法的優點是設定一個數值可重覆組合多項功能，但設定時需先將二進位的編碼自行轉換成十進位數值後再輸入此參數。

序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级21 丙酮A c e t o n e67-64-1 T H I =30 轻度危害(I V 级)22 丙酮氰醇（按C N 计）A c e t o n ec y a n o h yd r i n ,a s C N75-86-5 T H I =58 高度危害(I I 级)23 丙烯醇A l l y l a l c o h o l107-18-6 T H I =61 高度危害(I I 级)24 丙烯腈A c r y l o n i t r i l e107-13-1 T H I =63 高度危害(Ⅱ级)25 丙烯醛A c r o l e i n107-02-8 T H I =59高度危害(I I 级)26 丙烯酸A c r y l i c a c i d79-10-7 T H I =47中度危害(I I I 级)27 丙烯酸甲酯M e t h y l a c r y l a t e96-33-3 T H I =38中度危害(I I I 级)28 丙烯酸正丁酯n -B u t y l a c r y l a t e141-32-2 T H I =45中度危害(I I I 级)29 丙烯酰胺A c r y l a m i d e79-06-1T H I =56高度危害(I I 级)30 草酸O x a l i c a c i d144-62-7T H I =31轻度危害(Ⅳ级)31 重氮甲烷D i a z o m e t h a n e334-88-3T H I =62高度危害（I I 级）32抽余油(60℃~220℃)R a f f i n a t e(50℃~220℃)T H I =22轻度危害（Ⅳ级）33 臭氧O z o n e10028-15-6T H I =49中度危害（I I I 级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级34 滴滴涕(D D T )D i c h o r o d i p h e n y h r i -c h lo r o e t h o n e (D D T )50-29-3 T H I =62高度危害（I I 级）35 敌百虫T r i c h l o r f o n52-68-6 T H I =47 中度危害（I I I 级）36 敌草隆D i u r o n330-54-1 T H I =34 轻度危害（Ⅳ级）37 碲化铋（按B i 2T e 3计）B i s m u t h t e l l u r i d e ,a sB i 2T e 31304-82-1T H I =39 中度危害（Ⅲ级）38 碘I o d i n e7553-56-2 T H I =32轻度危害（Ⅳ级）39 碘仿I o d o f o r m75-47-8 T H I =46中度危害（I I I 级）40 碘甲烷M e t h y l i o d i d e74-88-4 T H I =49中度危害（Ⅲ级）41 叠氮酸蒸气H y d r a z o i c a c i d v a p o r7782-79-8T H I =61高度危害（Ⅱ级）42 叠氮化钠S o d i u m a z i d e26628-22-8T H I =63高度危害（Ⅱ级）43 丁醇B u t y l a l c o h o l71-36-3T H I =25轻度危害（Ⅳ级）44 1,3-丁二烯1,3-B u t a d i e n e106-99-0T H I =56高度危害（Ⅱ级）45 丁醛B u t y l a l d e h y d e123-72-8T H I =31轻度危害（Ⅳ级）46 丁酮M e t h y l e t h y l k e t o n e78-93-3T H I =24轻度危害（Ⅳ级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级47 丁烯B u t y l e n e25167-67-3 T H I =9 轻度危害（Ⅳ级）48 毒死蜱C h l o r p y r i f o s2921-88-2 T H I =46 中度危害（Ⅲ级）49 对苯二甲酸T e r e p h t h a l i c a c i d100-21-0 T H I =25 轻度危害（Ⅳ级）50 对二氯苯p -D i c h l o r o b e n z e n e106-46-7 T H I =40 中度危害（Ⅲ级）51 对茴香胺p -A n i s i d i n e104-94-9 T H I =40 中度危害（Ⅲ级）52 对硫磷P a r a t h i o n56-38-2 T H I =66极度危害（Ⅰ级）53 对特丁基甲苯p -T e r t -b u t y l t o l u e n e98-51-1 T H I =27轻度危害（Ⅳ级）54 对硝基苯胺p -N i t r o a n i l i n e100-01-6 T H I =53高度危害（Ⅱ级）55 对硝基氯苯p -N i t r o c h l o r o b r n z e n e100-00-5 T H I =53高度危害（Ⅱ级）56 多次甲基多苯基多异氰酸酯P o l y m e t y h l e n ep o l y p h e n y li s o c y a n a t e (P M P P I )57029-46-6 T H I =37中度危害（Ⅲ级）57 二苯胺D i p h e n y l a m i n e122-39-4T H I =41中度危害（Ⅲ级）58 二苯基甲烷二异氰酸酯D i p h e n y l m e t h a n ed i i s o c y a n a t e101-68-8 T H I =56 高度危害（Ⅱ级）序号 中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级矾铁合金尘f u m e 、d u s t F e r r o v a n a d i u m a l l o y d u s t 100 酚 P h e n o l 108-95-2 T H I =59 高度危害（Ⅱ级） 101 呋喃 F u r a n 110-00-9 T H I =41 中度危害(I I I 级) 102 氟化氢（按F 计） H y d r og e n f l o u r i d e 7664-39-3 T H I =50 高度危害（Ⅱ级） 103 氟化物（氟化钠） F l o u r i d eT H I =53高度危害（Ⅱ级）104 锆及其化合物Z i r c o n i u m a n d c o m p o u n d s 7440-67-7T H I =21轻度危害(I V 级)105 镉及其化合物C a d m i u m a n d c o m p o u n d s 7440-43-9T H I =69极度危害(I 级)106 汞-金属汞（蒸汽）M e r c u r y m e t a l 7439-97-6T H I =75极度危害(I 级)107汞-有机汞（氯化汞）M e r c u r y o r g a n i c c o m p o u n d sT H I =76极度危害(I 级)108钴及其氧化物（氧化锆） C o b a l t a n d o x i d e s7440-48-4T H I =47中度危害(I I I 级)109 光气 P h o s g e n e 75-44-5 T H I =65 极度危害(I 级) 110 癸硼烷 D e c a b o r a n e 17702-41-9 T H I =48 中度危害(I I I 级) 111 过氧化苯甲酰 B e n z o y l p e r o x i d e 94-36-0 T H I =47 中度危害(I I I 级) 112 过氧化氢 H y d r o g e n p e r o x i d e 7722-84-1 T H I =29 轻度危害(I V 级) 113 环己胺 C y c l o h e x y l a m i n e 108-91-8 T H I =47 中度危害(I I I 级) 114 环己醇 C y c l o h e x a n o l 108-93-0 T H I =36 中度危害(I I I 级) 115环己酮C y c l o h e x a n o n e108-94-1T H I =26轻度危害(I V 级)序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级106-44-5130 甲基丙烯腈M e t h y l a c r y l o n i t r i l e126-98-7 T H I =57 高度危害（Ⅱ级）131 甲基丙烯酸M e t h a c r y l i c a c i d79-41-4 T H I =53 高度危害（Ⅱ级）132 甲基丙烯酸甲酯M e t h y l m e t h a c r y l a t e80-62-6 T H I =58 高度危害（Ⅱ级）133甲基丙烯酸缩水甘油酯G l y c i d y l m e t h a c r y l a t e106-91-2 T H I =25 轻度危害（Ⅳ 级）134 甲基肼M e t h y l h y d r a z i n e60-34-4 T H I =76极度危害（Ⅰ级）135 甲基内吸磷M e t h y l d e m e t o n8022-00-2 T H I =27轻度危害（Ⅳ 级）136 18－甲基炔诺酮18-M e t h y l n o r g e s t r e l6533-00-2 T H I =52高度危害（Ⅱ级）137 甲硫醇M e t h y l m e r c a p t a n74-93-1T H I =49高度危害（Ⅱ级）138 甲醛F o r m a l d e h y d e50-00-0T H I =82极度危害（Ⅰ级）139 甲酸F o r m i c a c i d64-18-6T H I =61高度危害（Ⅱ级）140 甲氧基乙醇2-M e t h o x y e t h a n o l109-86-4T H I =50高度危害（Ⅱ级）141甲氧氯 M e t h o x y c h l o r 72-43-5 T H I =12 轻度危害（I V 级） 142 间苯二酚 R e s o r c i n o l 108-46-3 T H I =37 中度危害（I I I 级） 143 焦炉逸散物C o k e o v e n e m i s s i o n s ,T H I =62高度危害（Ⅱ级）序号 中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级(按苯溶物计)a sb e n z e n e s o l u b l e m a t t e r 144肼 H y d r a z i n e 302-01-2 T H I =63 高度危害（Ⅱ级） 145 久效磷 M o n o c r o t o p h o s 6923-22-4 T H I =38 中度危害（I I I 级） 146 糠醇 F u r f u r y l a l c o h o l 98-00-0 T H I =27 轻度危害（I V 级） 147 糠醛 F u r f u r a l 98-01-1 T H I =54 高度危害（Ⅱ级） 148 考的松 C o r t i s o n e 53-06-5 T H I =38 中度危害（I I I 级） 149 苦味酸 P i c r i c a c i d 88-89-1 T H I =32 轻度危害（I V 级） 150 乐果 R o g o r 60-51-5 T H I =44 中度危害（I I I 级） 151 联苯 B i p h e n y l 92-52-4 T H I =42 中度危害（I I I 级） 152 邻苯二甲酸二丁酯 D i b u t y l p h t h a l a t e 84-74-2 T H I =27 轻度危害（I V 级） 153 邻苯二甲酸酐 P h t h a l i c a n h y d r i d e 85-44-9 T H I =32 轻度危害（I V 级） 154 邻二氯苯 o -D i c h l o r o b e n z e n e 95-50-1 T H I =44 中度危害（I I I 级） 155 邻茴香胺 o -A n i s i d i n e 90-04-0 T H I =48 重度危害（Ⅱ级） 156邻氯苯乙烯 o -C h l o r o s t y r e n e 2038-87-47 T H I =5 轻度危害（I V 级）157 邻氯苄叉丙二腈o -C h l o r o b e n z y l i d e n e m a l o n o n i t r i l e 2698-41-1T H I =28轻度危害（I V 级））158 邻仲丁基苯酚 o -s e c -B u t y l p h e n o l 89-72-5 T H I =43 中度危害（I I I 级）159 磷胺 P h o s p h a m i d o n 13171-21-6 T H I =44 中度危害（I I I 级） 160 磷化氢 P h o s p h i n e 7803-51-2 T H I =63 高度危害（Ⅱ级） 161 磷酸P h o s p h o r i c a c i d 7664-38-2T H I =34轻度危害（Ⅳ级162 磷酸二丁基苯酯P h o s p h o r i c a c i d , b u t y l d i p h e n y l e s t e r2752-95-6T H I =29轻度危害（Ⅳ级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级163硫化氢 h y d r o g e n s u l f i d e 7783-06-4 T H I =50 高度危害（I I 级） 164 硫酸钡 B a r i u m s u l f a t e 7727-43-7 T H I =37 中度危害（I I I 级） 165 硫酸二甲酯 M e t h y l s u l f a t e 77-78-1 T H I =77 极度危害（Ⅰ级） 166 硫酸 S u l f u r i c a c i d 7664-93-9 T H I =57 高度危害（Ⅱ级） 167 硫酰氟 s u l f u r y l f l u o r i d e 2699-79-8 T H I =32 轻度危害（Ⅳ级） 168 六氟丙酮 h e x a f l u o r o a c e t o n e 684-16-2 T H I =41 中度危害（Ⅲ级） 169 六氟丙烯 h e x a f l u o r o p r o p y l e n e 116-15-4 T H I =32 轻度危害（Ⅳ级） 170 六氟化硫s u l f u r h e x a f l u o r i d e 2551-62-4T H I =24 轻度危害（Ⅳ级）171 六六六H e x a c h l o r o c y c l o h e x a n e 58-89-9T H I =48中度危害（I I I 级）172 γ-六六六γ-H e x a c h l o r o c y c l o h e x a n e 58-89-9T H I =47中度危害（Ⅲ级）173 六氯丁二烯H e x a c h l o r o b u t a d i e n e 87-68-3T H I =40中度危害（Ⅲ级）174 六氯环戊二烯H e x a c h l o r o c y c l o p e n t a d i e n e 77-47-4T H I =45中度危害（Ⅲ级）175 六氯萘H e x a c h l o r o n a p h t h a l e n e 1335-87-1T H I =35中度危害（Ⅲ级）176 六氯乙烷h e x a c h l o r o e t h a n e ；c a r b o n h e x a c h l o r i d e 67-72-1T H I =15轻度危害（Ⅳ级）177 氯 c h l o r i n e 7782-50-5 T H I =54 高度危害（I I 级） 178 氯苯 C h l o r o b e n z e n e 108-90-7 T H I =49 中度危害（I I I 级） 179 氯丙酮 C h o l r o a c e t o n e 78-95-5 T H I =55 高度危害（Ⅱ级） 180 氯丙烯A l l y l c h l o r i d e107-05-1T H I =45中度危害（Ⅲ级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级181 β-氯丁二烯C h l o r o p r e n e126-99-8 T H I =55 高度危害（Ⅱ级）182 氯化铵烟A m m o n i u m c h l o r i d e f u m e 12125-02-9T H I =36中度危害（Ⅲ级）183 氯化苦C h l o r o p i c r i n76-06-2T H I =48 高度危害（Ⅱ级）184氯化氢 H y d r o g e n c h l o r i d e 7647-01-0T H I =56 高度危害（Ⅱ级） 盐酸 C h l o r h y d r i c a c i d T H I =50 高度危害（Ⅱ级） 185氯化氰 C y a n o g e n c h l o r i d e 506-77-4 T H I =72 极度危害（I 级）186氯化锌烟 Z i n c c h l o r i d e f u m e 7646-85-7T H I =54高度危害（Ⅱ级）187 氯甲甲醚C h l o r o m e t h y l m e t h y l e t h e r107-30-2T H I =78极度危害（Ⅰ级）188 氯甲烷M e t h y l c h l o r i d e74-87-3T H I =52高度危害（Ⅱ级）189 氯联苯（54%氯）C h l o r o d i p h e n y l （54%）11097-69-1T H I =50高度危害（Ⅱ级）190 氯萘C h l o r o n a p h t h a l e n e90-13-1T H I =48中度危害（Ⅲ级） 191 氯乙醇E t h y l e n e c h l o r o h y d r i n107-07-3T H I =57高度危害（Ⅱ级）192 氯乙醛C h l o r o a c e t a l d e n e107-20-0T H I =52高度危害（Ⅱ级） 193 氯乙酸C h l o r o a c e t i c a c i d79-11-8T H I =52高度危害（Ⅱ）级194 氯乙烯V i n y l c h l o r i d e75-01-4T H I =60高度危害（Ⅱ级）195 α-氯乙酰苯 α-C h l o r o a c e t o p h e n o n e532-27-4 T H I =47 中度危害（Ⅲ级） 196 氯乙酰氯 C h l o r o a c e t y l c h l o r i d e79-04-9T H I =51高度危害（Ⅱ级） 197 马拉硫磷M a l a t h i o n121-75-5T H I =51高度危害（Ⅱ级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级198马来酸酐 M a l e i c a n h y d r i d e 108-31-6 T H I =39 中度危害（Ⅲ级） 199 吗啉M o r p h o l i n e 110-91-8T H I =40 中度危害（Ⅲ级）200煤焦油沥青挥发物（按苯溶物计）C o a l t a r p i t c h v o l a t i l e s ,a s B e n z e n e s o l u b l e m a t t e r s 65996-93-2T H I =72极度危害（Ⅰ级）201锰及其无机化合物(按M n O 2计)M a n g a n e s e a n d i n o r g a n i c c o m p o u n d s ,a s M n o 2 7439-96-5(M n ) T H I =41中度危害（I I I 级）202-1钼及其无机化合物（按M o 计）M o l y b d e n u m a n d c o m p o u n d s ,a s M o M o l y b d e n u m a n d i n s o l u b l e c o m p o u n d s s o l u b l e c o m p o u n d s7439-98-7(M o ) T H I =43中度危害（I I I 级）202-2 钼（可溶性化合物）7439-98-7(M o ) T H I =22轻度危害（I V 级）203 内吸磷 D e m e t o n 8065-48-3 T H I =55 高度危害（Ⅱ级） 204 萘 N a p h t h a l e n e 91-20-3 T H I =58 高度危害（Ⅱ级） 205 2-萘酚 2-H a p h t h a l e n e 2814-77-9 T H I =20 轻度危害（I V 级） 206 萘烷 D e c a l i n 91-17-8 T H I =49 中度危害（Ⅲ级） 207 尿素U r e a 57-13-6 T H I =5轻度危害（I V 级）208-1 可溶性镍化合物N i c k e l a n d i n o r g a n i c c o m p o u n d s ,a s N i c k e l m e t a l a n d i n s o l u b l e7440-02-0(N i ) T H I =54高度危害（Ⅱ级）序号 中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级c o m p o u nd s 208-2不溶性镍化合物7440-02-0(N i )T H I =63 高度危害（Ⅱ级）209铍及其化合物（按B e 计）B e r y l l i u m a n d c o m p o u n d s ,a s B e 7440-41-7(B e )T H I =61 高度危害（Ⅱ级）210偏二甲基肼U n s y m m e t r i c d i m e t h y l h y d r a z i n e57-14-7T H I =57 高度危害（Ⅱ级）211 铅L e a d a n d i n o r g a n i c C o m p o u n d s ,a s P b7439-92-1T H I (铅及其无机化合物)=53 T H I （铅）=49 高度危害（Ⅱ级）212 氢化锂 L i t h i u m h y d r i d e 7580-67-8 T H I =38 中度危害（Ⅲ级） 213 氢醌H y d r o q u i n o n e123-31-9 T H I =43中度危害（Ⅲ级）214 氢氧化钾P o t a s s i u m h y d r o x i d e1310-58-3 T H I =26轻度危害（Ⅳ级）215 氢氧化钠 S o d i u m h y d r o x i d e 1310-73-2 T H I =21 轻度危害（Ⅳ级） 216 氢氧化铯C e s i u m h y d r o x i d e21351-79-1 T H I =21轻度危害（Ⅳ级）217 氰氨化钙C a l c i u m c y a n a m i d e156-62-7T H I =40中度危害（Ⅲ级）218 氰化氢(按C N 计)H y d r o g e n c y a n i d e ,a s C N 74-90-8T H I =61高度危害（Ⅱ级）219 氰化物(按C N 计)C y a n i d e s ,a s C N 460-19-5(C N )T H I =50高度危害（Ⅱ级）220 氰戊菊酯F e n v a l e r a t e51630-58-1T H I =36中度危害（Ⅲ级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级221全氟异丁烯 P e r f l u o r o i s o b u t y l e n e 382-21-8 T H I =61 高度危害（Ⅱ级） 222 壬烷 N o n a n e 11-84-2 T H I =29 轻度危害（Ⅳ级） 223 溶剂汽油 S o l v e n t g a s o l i n e s T H I =33 轻度危害（Ⅳ级） 224乳酸正丁酯N -B u t y l l a c t a t e138-22-7 T H I =16 轻度危害（Ⅳ级）225三次甲基三硝基胺(黑索今) C y c l o n i t e (R D X )121-82-4 T H I =45中度危害（Ⅲ级）226 三氟化氯 C h l o r i n e t r i f l u o r i d e 7790-91-2 T H I =62 高度危害（Ⅱ级） 227三氟化硼B o r o n t r i f l u o r i d e 7637-07-2T H I =52 高度危害（Ⅱ级）228 三氟甲基次氟酸酯T r i f l u o r o m e t h y l h y p o f l u o r i d eT H I =44中度危害（Ⅲ级）229 三甲苯磷酸酯T r i c r e s y l p h o s p h a t e 1330-78-5T H I =43中度危害（Ⅲ级）230 1,2,3-三氯丙烷1,2,3-T r i c h l o r o p r o p a n e 96-18-4T H I =41中度危害（Ⅲ级）231 三氯化磷P h o s p h o r o u s t r i c h l o r i d e 7719-12-2T H I =49中度危害（Ⅲ级）232 三氯甲烷T r i c h l o r o m e t h a n e 67-66-3T H I =40中度危害（Ⅲ级）233 三氯硫磷P h o s p h o r o u s t h i o c h l o r i d e 3982-91-0T H I =40中度危害（Ⅲ级）234 三氯氢硅T r i c h l o r o s i l a n e 10025-28-2T H I =23轻度危害（Ⅳ级）235 三氯氧磷P h o s p h o r o u s o x y c h l o r i d e 10025-87-3T H I =52高度危害（Ⅱ级）236 三氯乙醛 T r i c h l o r o a c e t a l d e h y d e 75-87-6 T H I =52 高度危害（Ⅱ级） 237 1,1,1-三氯乙烷1,1,1-T r i c h l o r o e t h a n e71-55-6T H I =53高度危害（Ⅱ级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级238三氯乙烯 T r i c h l o r o e t h y l e n e 79-01-6 T H I =60 高度危害（Ⅱ级） 239 三硝基甲苯T r i n i t r o t o l u e n e 118-96-7T H I =69 极度危害（Ⅰ级）240三氧化铬、铬酸盐、重铬酸盐（按C r 计）C h r o m i u m t r i o x i d e 、c h r o m a t e 、d i c h r o m a t e ,a s C r 7440-47-3(C r )T H I =55高度危害（Ⅱ级）241 三乙基氯化锡C h l o r o t r i e t h y l s t a n n a n e 994-31-0T H I =39中度危害（Ⅲ级）242 杀螟松 S u m i t h i o n 122-14-5 T H I =53 高度危害（Ⅱ） 243 砷化氢 A r s e n i c h y d r i d e 7784-42-1 T H I =53 极度危害（Ⅰ级） 244 砷及其无机化合物A r s e n i c 7440-38-2T H I =49 极度危害（Ⅰ级） 245升汞M e r c u r i c c h l o r i d e s M e r c u r y b i c h l o r i d e7487-94-7 T H I =58高度危害（Ⅱ级）246石蜡烟 P a r a f f i n w a x e s64742-43-4（固体石蜡） T H I =22轻度危害（Ⅳ级）247石油沥青烟 P e t r o l e u m a s p h a l t8052-42-4（石油沥青）T H I =51高度危害（Ⅱ级）248双（疏基乙酸）二辛基锡 B i s (m e r c a p t o a c e t a t e ) d i o c t y l t i n26401-97-8T H I =12轻度危害（Ⅳ级）249双丙酮醇D i a c e t o n e a l c o h o l 123-42-2T H I =17轻度危害（I V 级）250 双硫醒T e t r a e t h y l t h i u r a m d i s u l f i d e97-77-8 T H I =25轻度危害（Ⅳ级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级251 双氯甲醚B i s (c h l o r o m e t h y l )e t h e r 542-88-1 T H I =64高度危害（Ⅱ）252 四氯化碳C a r b o n t e t r a c h l o r i d e56-23-5T H I =33轻度危害（Ⅳ）253 四氯乙烯T e t r a c h l o r o e t h y l e n e127-18-4T H I =38轻度危害（Ⅳ）254 四氢呋喃T e t r a h y d r o f u r a n109-99-9T H I =22轻度危害（Ⅳ）255 四氢化锗G e r m a n i u m t e t r a h y d r i d e7782-65-2T H I =54高度危害（Ⅱ）256 四溴化碳C a r b o n t e t r a b r o m i d e558-13-4T H I =21轻度危害（Ⅳ）257 四乙基铅T e t r a e t h y l l e r d ,a s P b78-00-2T H I =47高度危害（Ⅱ）258 松节油T u r p e n t i n e8006-64-2T H I =59高度危害（Ⅱ）259 铊及其可溶性化合物T h a l l i u m a n d s o l u b l e c o m p o u n d s ,a s T I7440-28-0T H I =69极度危害（Ⅰ级）260钽及其化合物T a n t a l u m a n d o x i d e ,a s T a 7440-25-7T H I =17轻度危害（Ⅳ）261 碳酸钠S o d i u m c a r b o n a t e497-19-8 T H I =26轻度危害(I V 级)262 羰基氟（碳酰氟）C a r b o n y l f l u o r i d e353-50-4 T H I =45中度危害（I I I 级）263 羰基镍 N i c k e l c a r b o n y l , a s N i13463-39-3 T H I =78 极度危害(I 级) 264-1 金属锑A n t i m o n y7440-36-0T H I =43中度危害（I I I 级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级264-2三氧化二锑 A n t i m o n y (I I I ) o x i d e 1309-64-4 T H I =51 高度危害（I I I 级） 264-3 五氧化二锑 a n t i m o n y p e n t o x i d e 1314-60-9 T H I =41 中度危害（I I I 级） 265-1 铜尘(金属铜尘 c o p p e r 7440-50-8 T H I =38 中度危害（I I I 级 265-2 硫酸铜 c o p p e r s u l f a t e 7758-98-7 T H I =44 中度危害（I I I 级） 265-3 氧化铜 C o p p e r (I I ) o x i d e 1317-38-0 T H I =31 轻度危害（I V 级） 266-1 钨金属 T u n g s t e n 7440-33-7 T H I =32 轻度危害（Ⅳ级） 266-2 三氧化钨T u n g s t e n (V I ) o x i d e 1314-35-8T H I =25 轻度危害（Ⅳ级）267 五氟氯乙烷C h l o r o p e n t a f l u o r o e t h a n e 76-15-3T H I =17轻度危害（Ⅳ级）268 五硫化二磷D i p h o s p h o r u s p e n t a s u l f i d e 1314-80-3T H I =38中度危害（I I I 级）269-1 五氯酚P e n t a c h l o r o p h e n o l 87-86-5T H I =68极度危害（Ⅰ级）269-2 五氯酚钠S o d i u m p e n t a c h l o r o p h e n o l 87-86-5T H I =53高度危害（I I 级）270 五羰基铁 I r o n P e n t a c a r b o n y l 13463-40-6 T H I =45 中度危害(I I I 级） 271 五氧化二磷 P h o s p h o r u s (V ) o x i d e 1314-56-3 T H I =31 轻度危害(I V 级) 272-1 1-戊醇 P e n t a n o l 71-41-0 T H I =22 轻度危害（Ⅳ级） 272-2 2-戊醇 2-P e n t a n o l 6032-29-7 T H I =25 轻度危害（Ⅳ级） 272-3 3-戊醇 3-P e n t a n o l 584-02-1 T H I =21 轻度危害（Ⅳ级） 272-4 2-甲基-2-丁醇 t e r t -A m y l A l c o h o l 75-85-4 T H I =21 轻度危害（Ⅳ级） 273-1正戊烷 n -P e n t a n e109-66-0T H I =24轻度危害（I V 级）273-2新戊烷(2,2-二甲基丙烷)N e o p e n t a n e463-82-1T H I =24轻度危害（I V 级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级305 乙基戊基甲酮E t h y l a m y l k e t o n e541-85-5 T H I =38 中度危害（Ⅲ级）306 乙腈A c e t o n i t r i l e75-05-8 T H I =39 中度危害（Ⅲ级）307 乙硫醇E t h y l m e r c a p t a n75-08-1 T H I =40 中度危害（Ⅲ级）308 乙醚E t h y l e t h e r60-29-7 T H I =30 轻度危害（I V 级）309 乙硼烷D i b o r a n e19287-45-7 T H I =63 高度危害（Ⅱ级）310 乙醛A c e t a l d e h y d e75-07-0 T H I =63高度危害（Ⅱ级）311 乙酸A c e t i c a c i d64-19-7 T H I =53高度危害（Ⅱ级）312 2-甲氧基乙基乙酸酯2-M e t h o x y e t h y la c e t a t e110-49-6 T H I =38中度危害（Ⅲ级）313 乙酸丙酯P r o p y l a c e t a t e109-60-4T H I =24轻度危害（I V 级）314 乙酸丁酯B u t y l a c e t a t e123-86-4T H I =33轻度危害（I V 级）315 乙酸甲酯M e t h y l a c e t a t e79-20-9T H I =29轻度危害（I V 级）316乙酸戊酯（全部异构体）A m y l a c e t a t e (a l li s o m e r s )628-63-7T H I =21轻度危害（Ⅳ级）317 乙酸乙烯酯V i n y l a c e t a t e108-05-4T H I =24轻度危害（Ⅳ级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级318 乙酸乙酯E t h y l a c e t a t e141-78-6 T H I =16 轻度危害（Ⅳ级）319 乙烯酮K e t e n e463-51-4 T H I =39 中度危害（Ⅲ级）320 乙酰甲胺磷A c e p h a t e30560-19-1 T H I =20 轻度危害（Ⅳ级）321乙酰水杨酸（阿司匹林） A c e t y l s a l i c y l i c a c i d (a s p i r i n ) 50-78-2T H I =37中度危害（I I I 级）3222-乙氧基乙醇2-E t h o x y e t h a n o l110-80-5T H I =40 中度危害（I I I 级）323 2-乙氧基乙基乙酸酯2-E t h o x y e t h y l a c e t a t e 111-15-9T H I =42中度危害（I I I 级）324钇及其化合物 （按Y 计） Y t t r i u m a n d c o m p o u n d s (a s Y ) 7440-65-5T H I =43中度危害（I I I 级）325异丙胺 I s o p r o p y l a m i n e 75-31-0T H I =42中度危害（I I I 级）326异丙醇 I s o p r o p y l a l c o h o l (I P A )67-63-0T H I =30轻度危害（I V 级）327N -异丙基苯胺 N -I s o p r o p y l a n i l i n e768-52-5T H I =50高度危害（Ⅱ级）328 异稻瘟净 K i t a z i n o -p 26087-47-8 T H I =24 轻度危害（I V 级） 329异佛尔酮I s o p h o r o n e 78-59-1T H I =44中度危害（I I I 级）330 异佛尔酮二异氰酸酯I s o p h o r o n e d i i s o c y a n a t e (I P D I ) 4098-71-9T H I =59高度危害（Ⅱ级）331 异氰酸甲酯M e t h y l i s o c y a n a t e624-83-9T H I =65极度危害（I 级）序号中文名 英文名化学文摘号（C A S N O .1） 毒物危害指数 职业危害程度分级332异亚丙基丙酮 M e s i t y l o x i d e 141-79-7T H I =38 中度危害（I I I 级）333铟及其化合物（按I n 计） I n d i u m a n d c o m p o u n d s , a s I n 7440-74-6（I n ）T H I =50 高度危害（Ⅱ级）334茚 I n d e n e 95-13-6T H I =26 轻度危害（I V 级） 335正丁胺 n -b u t y l a m i n e109-73-9T H I =55 高度危害（Ⅱ级）336正丁基硫醇n -b u t y l m e r c a p t a n109-79-5T H I =26轻度危害（I V 级）337 正丁基缩水甘油醚n -b u t y l g l y c i d y l e t h e r 2426-08-6T H I =64高度危害（Ⅱ级338 正庚烷 n -H e p t a n e 142-82-5 T H I =23 轻度危害（I V 级） 339 正己烷n -H e x a n e110-54-3 T H I =54高度危害（Ⅱ级）。

景德镇陶瓷学院《会计学》专业硕士生培养方案一、本学科专业简介长期以来，本学科点致力于公司理财、成本管理会计、审计理论与实务等方面的研究工作。

在公司财务管理方面形成特色且在业内和区域内有一定影响力。

本学科现有会计学、财务管理2个本科专业；现有教师16人，其中正教授4人，副教授5人，博士6人；16人中，1人获得国家政府特殊津贴，1人获得江西省政府特殊津贴，3人被评为江西省中青年学科带头人、1人被评为江西省骨干教师。

本学科在近5年内，获得国家社科项目2项，科技部项目2项，省部级科研项目20余项，横向项目20多项，获得省部级科研优秀成果奖6项，发表论文100多篇，学科建设稳步发展。

二、培养目标及培养方式1、培养目标与要求为满足我国社会主义市场经济发展以及现代化建设的需要，坚持德、智、体全面发展，具有扎实理论基础和创新意识的应用型高级会计专业人才。

该专业研究生培养的具体要求如下：（1）掌握马列主义、毛泽东思想和邓小平理论的基本原理，坚持四项基本原则，具有良好的政治素质和职业道德素质；（2）具备扎实的经济学和管理学理论基础，系统掌握会计学专业知识以及相关领域的知识和技能；（3）具有较强的外语能力、表达能力、逻辑思维能力和协调沟通能力；（4）能够熟练运用计算机等现代数据处理工具，从事会计学科科研活动，身心健康。

2、培养方式（1）导师培养：研究生入学后，由导师及其指导小组根据培养目标及研究生具体情况，制定出研究生培养计划，系统对研究生课程学习、文献阅读、开题报告、学位论文进行指导，加强研究生中期考核，着重研究生基础理论、科学研究和解决实际问题的能力培养。

（2）课程学习：课程学习实行学分制，授课方式采用讲授、答疑、讨论、导读等形式进行；硕士研究生必须认真学习各门课程，掌握系统的基础理论知识和相应的研究方法，学好每门课程。

（3）教学或科研实践：研究生在校期间，每学年应进行至少一次的读书报告或专题报告，或由导师指导参与科研项目研究、进行课程辅导答疑、作业批改、指导实验等教学实践活动。

中华人民共和国国家职业卫生标准（GBZ 2-2002）
工作场所有害因素职业接触限值
Occupational Exposure Limit for Hazardous Agents in the Workplace
说明
PC-TWA 时间加权平均容许浓度（8小时）。

PC-MAC 最高容许浓度，指在一个工作日内任何时间都不应超过的浓度。

PC-STEL 短时间接触容许浓度（15分钟）。

* 表1：数值系根据“超限系数”推算；表2：粉尘TWA的接触上限值。

** 表1：“其他粉尘”指不含有石棉且游离SiO2含量低于10%，不含有毒物质，尚未制订专项卫生标准的粉尘。

总粉尘指直径为40mm的滤膜，按标准粉尘测定方法采样所得的粉尘。

呼尘呼吸性粉尘，指按呼吸性粉尘采样方法所采集的可进入肺泡的粉尘粒子，其空气动力学直径均在7.07μｍ以下，空气动力学直径5μｍ粉尘粒子的采样
效率为50%。

表1工作场所空气中有毒物质容许浓度(mg/m3)
表2工作场所空气中粉尘容许浓度（mg/m3）。

UTF-8,Unicode,GBK,希腊字母读法,ASCII码表,HTTP错误码,URL编。

希腊字母表⼤写⼩写英语发⾳Ααalpha AL-fuhΒβbeta BAY-tuh, BEE-tuhΓγgamma GAM-uhΔδdelta DELL-tuhΕεepsilon EP-suh-lonΖζzeta ZAY-tuh, ZEE-tuhΗηeta AY-tuh (rhymes with BAY-tuh), EE-tuhΘθtheta THAY-tuh, THEE-tuh (th as in thin)Ιιiota eye-OH-tuhΚκkappa CAP-uhΛλlambda LAM-duhΜµmu MYOO, MOOΝνnu NOO, NYOOΞξxi ZIGH, SIGH, KSEEΟοomicron AH-mih-cron, OH-mih-cronΠπpi PIEΡρrho ROEΣσsigma SIG-muhΤτtau TOW (rhymes with cow), TAWΥυupsilon UP-suh-lon, YOOP-suh-lonΦφphi FIE, FEEΧχchi KIGH, KEEΨψpsi SIGH, PSIGH, PSEEΩωomega oh-MEG-uh, oh-MEE-guh, oh-MAY-guhDecimal Octal Hex Binary Value------- ----- --- ------ -----000 000 000 00000000 NUL (Null char.)001 001 001 00000001 SOH (Start of Header)002 002 002 00000010 STX (Start of Text)003 003 003 00000011 ETX (End of Text)004 004 004 00000100 EOT (End of Transmission)005 005 005 00000101 ENQ (Enquiry)010 012 00A 00001010 LF (Line Feed)011 013 00B 00001011 VT (Vertical Tab)012 014 00C 00001100 FF (Form Feed)013 015 00D 00001101 CR (Carriage Return)014 016 00E 00001110 SO (Shift Out)015 017 00F 00001111 SI (Shift In)016 020 010 ******** DLE (Data Link Escape)017 021 011 00010001 DC1 (XON) (Device Control 1)018 022 012 00010010 DC2 (Device Control 2)019 023 013 00010011 DC3 (XOFF)(Device Control 3)020 024 014 00010100 DC4 (Device Control 4)021 025 015 00010101 NAK (Negative Acknowledgement) 022 026 016 00010110 SYN (Synchronous Idle)023 027 017 00010111 ETB (End of Trans. Block)024 030 018 00011000 CAN (Cancel)025 031 019 00011001 EM (End of Medium)026 032 01A 00011010 SUB (Substitute)027 033 01B 00011011 ESC (Escape)028 034 01C 00011100 FS (File Separator)029 035 01D 00011101 GS (Group Separator)030 036 01E 00011110 RS (Req to Send)(Rec Sep)031 037 01F 00011111 US (Unit Separator)032 040 020 ******** SP (Space)033 041 021 ******** !034 042 022 ******** "035 043 023 ******** #036 044 024 ******** $037 045 025 ******** %038 046 026 00100110 &039 047 027 ******** '040 050 028 ******** (041 051 029 ******** )042 052 02A 00101010 *043 053 02B 00101011 +044 054 02C 00101100 ,045 055 02D 00101101 -046 056 02E 00101110 .047 057 02F 00101111 /048 060 030 00110000 0049 061 031 00110001 1050 062 032 00110010 2051 063 033 00110011 3052 064 034 00110100 4053 065 035 00110101 5054 066 036 00110110 6055 067 037 00110111 7056 070 038 00111000 8057 071 039 00111001 9058 072 03A 00111010 :059 073 03B 00111011 ;060 074 03C 00111100 <061 075 03D 00111101 =062 076 03E 00111110 >063 077 03F 00111111 ?064 100 040 01000000 @065 101 041 01000001 A066 102 042 01000010 B067 103 043 01000011 C068 104 044 01000100 D069 105 045 01000101 E070 106 046 01000110 F071 107 047 01000111 G072 110 048 01001000 H073 111 049 01001001 I078 116 04E 01001110 N079 117 04F 01001111 O080 120 050 01010000 P081 121 051 01010001 Q082 122 052 01010010 R083 123 053 01010011 S084 124 054 01010100 T085 125 055 01010101 U086 126 056 01010110 V087 127 057 01010111 W088 130 058 01011000 X089 131 059 01011001 Y090 132 05A 01011010 Z091 133 05B 01011011 [092 134 05C 01011100 \093 135 05D 01011101 ]094 136 05E 01011110 ^095 137 05F 01011111 _096 140 060 01100000 `097 141 061 01100001 a098 142 062 01100010 b099 143 063 01100011 c100 144 064 01100100 d101 145 065 01100101 e102 146 066 01100110 f103 147 067 01100111 g104 150 068 01101000 h105 151 069 01101001 i106 152 06A 01101010 j107 153 06B 01101011 k108 154 06C 01101100 l109 155 06D 01101101 m110 156 06E 01101110 n111 157 06F 01101111 o112 160 070 01110000 p113 161 071 01110001 q114 162 072 01110010 r115 163 073 01110011 s116 164 074 01110100 t117 165 075 01110101 u118 166 076 01110110 v119 167 077 01110111 w120 170 078 01111000 x121 171 079 01111001 y122 172 07A 01111010 z123 173 07B 01111011 {124 174 07C 01111100 |125 175 07D 01111101 }126 176 07E 01111110 ~127 177 07F 01111111 DELHTTP 2xx 成功HTTP 200 正常；请求已完成。

Gebrauchsanleitung IO-Link für Lineare Sensoren User manual IO-Link for Linear Sensors NOVOtechnik SIEDLE GRUPPEContentIO-Link 2 1IODD Files 2 2Device specification 2 3Process data 2 4Parameter Data 34.1Identification data 34.2Device parameter data 34.2.1Device Access Locks 44.2.2Profile Characteristics 44.2.3PD Input Descriptor 44.2.4Application Specific Tag 44.2.5Null point offset 44.2.6Averaging 44.2.7Resolution 44.2.8Mode 44.2.9Error Messages while Parametrization 55Events: Warnings and Errors 5 6Storage of Parameter Data 5 7Factory Reset 5 8Document Changes 5IO-LinkThis document reflects the Novotechnik sensor protocol implementation of the standard IO-Link protocol.A basic knowledge of the IO-link interface is required for a proper understanding of this document.Most of the definitions made are according to the IO-Link Standard specifications.For making use of all the features that these specifications offer, a knowledge about them is absolutely necessary.The linear sensors supports the IO-Link Smart Sensor Profile specifications (Edition 2011) according IEC 61131-9.The IO-Link interface is a point-to-point connection based on a UART protocol with 24 V pulse modulation. Data isexchanged cyclically between the IO-Link Master and the IO-Link device using the IO-Link protocol. The protocol con-tains process data and also requested additional data for state determination or configuration.1 IODD FilesFor integration in a common IO-Link projecting tool, IO Device Description (*.IODD) files are provided. These files canbe downloaded from the Novotechnik Web Site, see Downloads/Operating manuals where also this document can befound.IODD see file Product series_IODD_model. zip2 Device specification3 Process dataThe process data are transmitted cyclically. The sensor outputs a signed integer value via the IO-Link interface, e.g.:32 bits = position or 48 bits = 32 bits position and 16 bits speedThe absolute position relates to the factory default null point.Resolution of position data: 1 or 5 μmResolution of speed data: 0.1 or 0.5 mm/sThe factory default null point can be shifted via the parameter “Null point offset".The validity of the process data 0xF000 FF10 ... 0x7FFF FFF0 is confirmed by a PD Valid Infomation (process data valid).In case of an error, if no position marker or magnet can be detected, the error value 0x7FFF FFFC is put out and the data is labeled as invalid (PD Invalid Bit).Hint: The IO-Link functionality PD Invalid Bit is handled differently by different IO-Link masters (refer to the manual for the respective master).4 Parameter DataDevice parameters are exchanged non-cyclically and on request of the IO-Link master. Parameter values can be written into the sensor (Write) or device states can be read out of the sensor (Read) by means of the "On-Request Data Ob-jects".4.1 Identification data4.2 Device parameter data*) changeable during operation.Only TP1/TH1 series: Process data are invalid until renewed output of valid process data after 10 ms**) changeable during operation but only effective after Power Off / Power On4.2.1 Device Access LocksWith this parameter, it is possible to active or deactivate the function of the parameter manager.In order to lock the parameter manager, bit #1 of the 2 byte value must be set to "1" (locked), to unlock bit #1 is set to "0".4.2.2 Profile CharacteristicsThis parameter indicates which profile is supported by the IO-Link device.The sensor supports the Smart Sensor Profile:Profile Identifier -> DeviceProfileID: 0x0001 "Smart Sensor Profile"Profile Identifier -> FunctionClassID: 0x8000 "Device Identification"Profile Identifier -> FunctionClassID: 0x8002 "ProcessDataVariable“Profile Identifier -> FunctionClassID: 0x8003 "Sensor Diagnosis"4.2.3 PD Input DescriptorThis parameter describes the composition of the process data variables used. The sensor processes the process data variable as follows:0x000E Subindex 0:0x03 -> Data type = IntegerT 0x20 -> Data size = 32 bits 0x00 -> Offset = 0 bit0x30 -> Data size = 48 bitsOnly TP1/TH1 series:0x40 -> Data size = 64 bits0x60 -> Data size = 96 bits4.2.4 Application Specific TagThis parameter makes it possible to assign the IO-Link device an arbitrary, 32-byte string. This can only be used by the customer for application-specific identification and applied in the parameter manager. The entire object is accessed via subindex 0.4.2.5 Null point offsetSame as process data value, this parameter is a signed 32-bits decimal value.The null point offset can be done without magnet or position marker. The value is added to the factory default null point as a simple offset: maximum value corresponding sensor length.Access takes place via subindex 0.4.2.6 AveragingThe behavior of the output filter can be adjusted for smoothing the signal noise of the output signal. This allows to achieve a better repeatability.0 without moving average1 (or 2, 3, 4, 5) moving average across2 (or 4, 8, 16, 32) values4.2.7 ResolutionThe setting of the resolution can be changed (see IODD: 0 = 1 µm, 1 = 5 µm). When changing the resolution of the position signal from 1 to 5 µm, the resolution of the speed signal changes from 0.1 to 0.5 mm/s and vice versa.4.2.8 ModeThe ordered product model can be configured regarding number of position markers and measured variables:mode 0 = 1x positionmode 1 = 1x position + 1x speedOnly TP1/TH1 series:mode 2 = 2x positionmode 3 = 2x position + 2x speedmode 4 = 3x position4.2.9 Error Messages while ParametrizationThe following IO-Link error messages are stored if parametrization fails:5 Events: Warnings and ErrorsWhen an event occurs, the sensor sets the so-called "Event Flag". During an event is read by the master, no parameter data can be exchanged6 Storage of Parameter DataThe device parameters that have been set by the configuration tool and IODD are stored non-volatile.They can be changed and stored again in the sensor any time via the configuration tool or by the PLC.The device acknowledges any change of the parameters to the master.7 Factory ResetResetting to factory default settings is done with command 0x80 in index 0x0002 subindex 00.8 Document Changes。

Representative photograph, actual product appearance may vary.Due to regional agency approval requirements, some products may not be available in your area. Please contact your regional Honeywell office regarding your product of choice. HIH-4000-001HIH-4000 Series Integrated Circuity Humidity Sensor, 2,54 mm (0.100 in) Lead Pitch SIPFeaturesMolded thermoset plastic housing with coverLinear voltage output vs %RHLaser trimmed interchangeabilityLow power designHigh accuracyFast response timeStable, low drift performanceChemically resistantTypical ApplicationsRefrigerationDryingMeteorologyBattery-powered systemsOEM assembliesDescriptionThe HIH-4000 Series Humidity Sensors are designed specifically for high volume OEM (Original Equipment Manufacturer) users. Direct input to a controller or other device is made possible by this sensor’s linear voltage output. With a typical current draw of only 200 µA, the HIH-4000 Series is ideally suited for low drain, battery operated systems. Tight sensor interchangeability reduces or eliminates OEM production calibration costs. Individual sensor calibration data is available.The HIH-4000 Series delivers instrumentation-quality RH (Relative Humidity) sensing performance in a low cost, solderable SIP (Single In-line Package). Available in two lead spacing configurations, the RH sensor is a laser trimmed, thermoset polymer capacitive sensing element with on-chip integrated signal conditioning. The sensing element's multilayer construction provides excellent resistance to most application hazards such as wetting, dust, dirt, oils and common environmental chemicals.HIH-4000-001HIH-4000 Series Integrated Circuity Humidity Sensor, 2,54 mm (0.100 in) Lead Pitch SIPProduct SpecificationsPackage Style Solderable SIPTermination Details2,54 mm [0.100 in] Lead PitchSeries Name HIH-4000 SeriesRH Accuracy± 3.5% RH, 0-100 % RH non-condensing, 25 °C, 5 Vdc supplyRH Interchangeability± 5% RH, 0-60% RH; ± 8% @ 60-100% RH Typical RH Hysteresis± 3% of RH Span MaximumRH Repeatability± 0.5% RHRH response time, 1/e15 s in slowly moving air @ 25 °CRH Stability± 0.2% RH Typical at 50% RH in 1 YearSupply Voltage 4.0 Vdc to 5.8 VdcSupply Current500 µA Max.Operating Humidity Range0 to 100% RH, non-condensingOperating TemperatureRange-40 °C to 85 °C (-40 °F to 185 °F)Temperature CompensationTrue RH = Sensor RH/(1.0305+0.000044T-0.0000011T2) T in °C(True RH = Sensor RH/(0.9237-0.0041T+0.000040T2) T in °C)Availability GlobalComment Light sensitive, shield from bright light. UNSPSC Code411121UNSPSC Commodity411121 TransducersHIH-4000-001HIH-4000 Series Integrated Circuity Humidity Sensor, 2,54 mm (0.100 in) Lead Pitch SIPHIH-4000-001HIH-4000 Series Integrated Circuity Humidity Sensor, 2,54 mm (0.100 in) Lead Pitch SIPHIH-4000-001HIH-4000 Series Integrated Circuity Humidity Sensor, 2,54 mm (0.100 in) Lead Pitch SIPHIH-4000-001HIH-4000 Series Integrated Circuity Humidity Sensor, 2,54 mm (0.100 in) Lead Pitch SIPPERSONAL INJURYDO NOT USE these products as safety or emergency stop devices, or in any other application where failure of the product could result in personal injury.Failure to comply with these instructions could result in death or serious injury.MISUSE OF DOCUMENTATIONThe information presented in this product sheet (or catalog) is for reference only.DO NOT USE this document as product installation information.Complete installation, operation and maintenance information is provided in the instructions supplied with each product.Failure to comply with these instructions could result in death or serious injury.© Copyright Honeywell Inc.1998-2006 All rights reserved.。

1UG-1318 Rev ADESCRIPTIONLT8390A60V 2MHz Synchronous Buck-Boost ControllerDemonstration circuit 2598A is a 60V 2MHz synchronous buck-boost controller featuring the L T ®8390A . It accepts an input voltage from 4V to 24V (with transient to 60V) and regulates 12V output at up to 4A. DC2598A features high efficiency and 2MHz switching frequency, a high speed for a 4-switch buck-boost controller . It has a PGOOD flag, short-circuit fault protection, ISMON current-monitoring output signal, and spread spectrum frequency modulation (SSFM) or frequency synchronization.The LT8390A has a wide input voltage range from 4V to 60V. It can regulate an output as a boost, a buck, or a 4-switch boost-buck controller . It has adjustable switch-ing frequency between 600kHz and 2MHz. It has an option for external frequency synchronization or spread spec-trum frequency modulation. Its high switching frequency is unique to buck-boost controller ICs. Because of this, it can be used for high power when the input may be above, below, or equal to the output.DC2598A features an option to turn on spread spectrum by simply changing the position of a jumper from “NO SSFM/SYNC” to “SSFM” (or to “SYNC”).All registered trademarks and trademarks are the property of their respective owners.PERFORMANCE SUMMARYSmall ceramic input and output capacitors are used to save space and cost. There is a protection diode from LED+ to GND to prevent negative ringing during a short-circuit with long wires. Optional EMI input, output, and gate resistor component placeholders exist when a low EMI application is needed.Under voltage lockout can be adjusted with a few resistors and output voltage can be changed from 12V with FB resis-tors changes. Please note that higher voltage outputs may require higher voltage MOSFETs and output capacitors.The LT8390A data sheet gives a complete description of the part, operation and applications information. The data sheet must be read in conjunction with this demo manual for demonstration circuit 2598A. The LT8390AEUFD is assem-bled in a 28-lead 4mm × 5mm plastic QFN package with a thermally enhanced ground pad. LT8390A is also available in a 28-Lead plastic TSSOP (FE) package. Proper board layout is essential for maximum thermal performance. See the data sheet section “Layout Considerations”. Design files for this circuit board are available at /DC2598ASpecifications are at T A = 25°CPARAMETER CONDITIONMIN TYP MAX Input Voltage RangeOperating4V 60V Full Load (4A) Input Voltage Range Component Temp Rise <60°C with No Airflow 7V23VTypical Efficiency 12V Input, 12V 4A Output, 2MHz 90%Switching Frequency R3 = 59.0k 2MHz Peak Switch Current Limit R1 = 0.005Ω10A (AC) Output Ripple12V Input, 12V 4A Output 70mV P-P Input Under Voltage Lockout (Falling Turn-Off)R7 = 383k, R8 = 165k 4.0V Input Under Voltage Lockout (Rising Turn-On)R7 = 383k, R8 = 165k 5.0V V ISMON12V 4A Output 1.0VMaximum Load Current12V Input, 12V Output44.5A2UG-1318 Rev AQUICK START PROCEDUREFigure 1. Test Procedure Setup Drawing For DC2598ADemonstration circuit 2598A is easy to set up to evaluate the performance of the LT8390A Follow the procedure below:1. With the input power supply off, connect the input power supply and output load as shown in the test setup drawing in Figure 1.2. Connect the EN/UVLO terminal to GND.3. Make sure that the SSFM jumper is in the correct posi-tion – either with SSFM turned ON or OFF . Only placethe jumper in the SYNC position if an external SYNCfrequency source is connected to the SYNC pin.4. Turn the input power supply on and make sure the voltage is between 4V and 24V for proper steady state operation.5. Release the EN/UVLO-to-GND connection.6. Observe the 12V output voltage, the load current mea-surement via the ISMON pin voltage and the high effi-ciency of this small converter .QUICK START PROCEDUREFigure 2. DC2598A, LT8390A 2MHz Buck-Boost Efficiency 12V OUTFigure 3. Recommended Maximum DC Current with No Airflow (for DC2598A)UG-1318 Rev A3QUICK START PROCEDUREFigure 4. DC2598A, LT8390A Output Ripple Measured at C454UG-1318 Rev AQUICK START PROCEDUREUG-1318 Rev A56UG-1318 Rev AQUICK START PROCEDUREOptimized for Fast T ransient ResponseDC2598A is assembled as a very small 2MHz buck-boost converter with high efficiency. The ceramic output capaci-tors are used for a very small solution size overall. How-ever , for large signal transients on the output, more output capacitance may be useful, and matched with new com-pensation values. The figure below shows an optimizedlarge signal transient response DC2598A with the addi-tion of two aluminum electrolytic output capacitors and updated RC compensation values. Simply add two Sun-con 25HVHZ47M 47µF 25V capacitors to the output and change the compensation to R4 = 82k and C4 = 470pF. When these changes are made, the no load to full load (4A) transient has less than ±5% V OUT change.V IN V OUT R1L17UG-1318 Rev AITEM QTY REFERENCE PART DESCRIPTIONMANUFACTURER/PART NUMBERRequired Circuit Components11C1CAP ., 1μF, X7S, 100V, 10%, 080521C2CAP ., 4.7μF, X5R, 10V, 10%, 0402TDK, C1005X5R1A475K050BC 31C3CAP ., 0.47μF, X5R, 16V, 10%, 0402TAIYO YUDEN, EMK105ABJ474KV-F 41C4CAP ., 2200pF, X7R, 25V,1 0%, 0402MURATA, GRM155R71E222KA01D 61C5CAP ., 0.022μF, X7R, 25V, 10%, 0402MURATA, GRM155R71E223KA61D 71C6CAP ., 1μF, X7R, 25V, 10%, 0603KEMET , C0603C105K3RACTU 52C7, C8CAP ., 0.1μF, X7R, 25V, 10%, 0402AVX, 04023C104KAT2A81C10CAP ., 22μF, ALUM, 63V, 20%, SMD 6.3mm × 7.7mm SUN ELECTRONIC INDUSTRIES CORP , 63CE22FS 92C12, C32CAP ., 4.7μF, X7S, 100V, 20%, 1206AVX, 12061Z475MAT2A103C14, C20, C45CAP ., 22μF, X5R, 25V, 10%, 1206MURATA, GRM31CR61E226KE15L 162D1, D2DIODE, SCHOTTKY, 100V, 250mA, SOD-323F, AEC-Q101NXP SEMICONDUCTORS, BAT46WJ 251L1IND., 1μH, Power Shielded, 20%, 7.3A, 6mm × 5.5mm WURTH ELEKTRONIK, 74437336010272M1, M2XSTR., POWER MOSFET , 60V, 40A, TSDSON-8INFINEON, BSZ065N06LS5ATMA1292M3, M4XSTR., POWER MOSFET , 25V, 40A, TSDSON-8INFINEON, BSZ031NE2LS5ATMA1311R1RES., 0.005Ω, ±1%, 1.5W, 3216, AEC-Q200SUSUMU, KRL3216E-C-R005-F-T1321R2RES., 0.01Ω, 1%, 3/4W, 1206, SENSE SUSUMU, KRL1632E-M-R010-F-T5331R3RES., 59k, 1%, 1/16W, 0402, AEC-Q200VISHAY, CRCW040259K0FKED 342R4, R6RES., 10k, 1%, 1/16W, 0402VISHAY, CRCW040210K0FKED 351R5RES., 110k, 1%, 1/16W, 0402VISHAY, CRCW0402110KFKED 361R7RES., 383k, 1%, 1/16W, 0402, AEC-Q200VISHAY, CRCW0402383KFKED 371R8RES., 165k, 1%, 1/16W, 0402, AEC-Q200VISHAY, CRCW0402165KFKED 401R11RES., 100k, 5%, 1/16W, 0402VISHAY, CRCW0402100KFKED 451U1IC, 2MHz SYN. BUCK-BOOST CONTROLLER, 28-PIN QFNLINEAR TECH., LT8390AEUFD#TRPBF Optional Electrical Components 53C37, C38, C44CAP ., 0.1μF, X7R, 25V, 10%, 0402AVX, 04023C104KAT2A 110C26, C34, C39CAP ., OPTION, 0402121C27CAP ., 1μF, X5R, 16V, 10%, 0402AVX, 0402YD105KAT2A130C29, C30CAP ., 0805, OPTION 140C33, C40, C41, C42CAP ., OPTION, 1206152C35, C36CAP ., 0.1μF, X5R, 100V, 10%, 0402MURATA, GRM155R62A104KE14D 171D3DIODE, SCHOTTKY, 20V, 1A, SOD-323F NXP SEMICONDUCTORS, PMEG2010EJ 180D4, D5DIODE, OPTION, SCHOTTKY, SMD 220FB1, FB2, FB3, FB4, FB5, FB6IND., OPTION, BEAD, FERRITE, 1206260L2IND., OPTION, XAL4020 SERIES 30Q1XSTR., OPTION, PPAK 1212-8PARTS LISTPARTS LISTITEM QTY REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBER381R9RES., 124k, 1%, 1/16W, 0402VISHAY, CRCW0402124KFKED391R10RES., 75k, 1%, 1/16W, 0402VISHAY, CRCW040275K0FKEDRES., OPTION, 0402410R12, R20, R21, R25, R28,R29, R30426R14, R15, R16, R17, R24, R26RES., 0Ω, 1/16W, 0402, AEC-Q200VISHAY, CRCW04020000Z0ED432R18, R19RES., 10Ω, 5%, 1/16W, 0402VISHAY, CRCW040210R0FKED440R22, R23, R27RES., OPTION, 0805Hardware194E1, E2, E9, E10TEST POINT, TURRET, 0.094", MTG. HOLE MILL-MAX, 2501-2-00-80-00-00-07-0206E3, E4, E5, E6, E7, E8TEST POINT, TURRET, 0.064", MTG. HOLE MILL-MAX, 2308-2-00-80-00-00-07-0210E11TEST POINT, OPTION231JP1CONN., HDR, MALE, 2mm × 3,2mm, THT, STR WURTH ELEKTRONIK, 62000621121KEYSTONE, 575-4244J1, J2, J3, J4CONN., BANANA JACK, FEMALE, THT, NON-INSULATED, SWAGE284MH1, MH2, MH3, MH4STANDOFF, NYLON, SNAP-ON, 0.375"WURTH ELEKTRONIK, 702933000461XJP1CONN., SHUNT, FEMALE, 2 POS, 2mm WURTH ELEKTRONIK, 608002134218UG-1318 Rev A9UG-1318 Rev AInformation furnished by Analog Devices is believed to be accurate and reliable. However , no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices.SCHEMATIC DIAGRAM10UG-1318 Rev AUG16906-0-5/18(A)© ANALOG DEVICES, INC. 2017-2018ESD CautionESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality.Legal Terms and ConditionsBy using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONL Y. Customer understands and agrees that the Evaluation Board is provided for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional limitations: Customer shall not (i) rent, lease, display, sell, transfer , assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term “Third Party” includes any entity other than ADI, Customer , their employees, affiliates and in-house consultants. The Evaluation Board is NOT sold to Customer; all rights not expressly granted herein, including ownership of the Evaluation Board, are reserved by ADI. CONFIDENTIALITY. This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI. Customer may not disclose or transfer any portion of the Evaluation Board to any other party for any reason. Upon discontinuation of use of the Evaluation Board or termination of this Agreement, Customer agrees to promptly return the Evaluation Board to ADI. ADDITIONAL RESTRICTIONS. Customer may not disassemble, decompile or reverse engineer chips on the Evaluation Board. Customer shall inform ADI of any occurred damages or any modifications or alterations it makes to the Evaluation Board, including but not limited to soldering or any other activity that affects the material content of the Evaluation Board. Modifications to the Evaluation Board must comply with applicable law, including but not limited to the RoHS Directive. TERMINATION. ADI may terminate this Agreement at any time upon giving written notice to Customer . Customer agrees to return to ADI the Evaluation Board at that time. LIMITATION OF LIABILITY. THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED “AS IS” AND ADI MAKES NO WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT . 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DRAFT MIPI Alliance Specification forDisplay Serial InterfaceDraft Version 1.02.00 Revision 0.07 – 30 March 2010Further technical changes to this document are expected as work continues in the Display Working GroupNOTICE OF DISCLAIMER12The material contained herein is not a license, either expressly or impliedly, to any IPR owned or controlled by any of the authors or developers of this material or MIPI®. The material contained herein is provided on 3an “AS IS” basis and to the maximum extent permitted by applicable law, this material is provided AS IS 45AND WITH ALL FAULTS, and the authors and developers of this material and MIPI hereby disclaim all 6other warranties and conditions, either express, implied or statutory, including, but not limited to, any (ifany) implied warranties, duties or conditions of merchantability, of fitness for a particular purpose, of78accuracy or completeness of responses, of results, of workmanlike effort, of lack of viruses, and of lack of 9negligence.All materials contained herein are protected by copyright laws, and may not be reproduced, republished,1011distributed, transmitted, displayed, broadcast or otherwise exploited in any manner without the express12prior written permission of MIPI Alliance. MIPI, MIPI Alliance and the dotted rainbow arch and all related13trademarks, tradenames, and other intellectual property are the exclusive property of MIPI Alliance and14cannot be used without its express prior written permission.15ALSO, THERE IS NO WARRANTY OF CONDITION OF TITLE, QUIET ENJOYMENT, QUIET16POSSESSION, CORRESPONDENCE TO DESCRIPTION OR NON-INFRINGEMENT WITH REGARD 17TO THIS MATERIAL OR THE CONTENTS OF THIS DOCUMENT. IN NO EVENT WILL ANY18AUTHOR OR DEVELOPER OF THIS MATERIAL OR THE CONTENTS OF THIS DOCUMENT OR19MIPI BE LIABLE TO ANY OTHER PARTY FOR THE COST OF PROCURING SUBSTITUTE20GOODS OR SERVICES, LOST PROFITS, LOSS OF USE, LOSS OF DATA, OR ANY INCIDENTAL,21CONSEQUENTIAL, DIRECT, INDIRECT, OR SPECIAL DAMAGES WHETHER UNDERCONTRACT, TORT, WARRANTY, OR OTHERWISE, ARISING IN ANY WAY OUT OF THIS OR2223ANY OTHER AGREEMENT, SPECIFICATION OR DOCUMENT RELATING TO THIS MATERIAL,24WHETHER OR NOT SUCH PARTY HAD ADVANCE NOTICE OF THE POSSIBILITY OF SUCHDAMAGES.2526Without limiting the generality of this Disclaimer stated above, the user of the contents of this Document is27further notified that MIPI: (a) does not evaluate, test or verify the accuracy, soundness or credibility of the28contents of this Document; (b) does not monitor or enforce compliance with the contents of this Document;29and (c) does not certify, test, or in any manner investigate products or services or any claims of compliance30with the contents of this Document. The use or implementation of the contents of this Document may31involve or require the use of intellectual property rights ("IPR") including (but not limited to) patents,32patent applications, or copyrights owned by one or more parties, whether or not Members of MIPI. MIPI33does not make any search or investigation for IPR, nor does MIPI require or request the disclosure of any 34IPR or claims of IPR as respects the contents of this Document or otherwise.35Questions pertaining to this document, or the terms or conditions of its provision, should be addressed to: 36MIPI Alliance, Inc.c/o IEEE-ISTO3738445 Hoes Lane39Piscataway, NJ 08854Attn: Board Secretary4041Contents42Draft Version 1.02.00 Revision 0.07 – 30 March 2010 (i)431 Overview (10)44451.1 Scope (10)1.2 Purpose (10)462 Terminology (informative) (11)47482.1 Definitions (11)2.2 Abbreviations (12)492.3 Acronyms (12)50513 References (informative) (15)3.1 Display Bus Interface Standard for Parallel Signaling (DBI-2) (15)52533.2 Display Pixel Interface Standard for Parallel Signaling (DPI-2) (16)3.3 MIPI Alliance Specification for Display Command Set (DCS) (16)543.4 MIPI Alliance Standard for Camera Serial Interface 2 (CSI-2) (16)55563.5 MIPI Alliance Specification for D-PHY (D-PHY) (16)4 DSI Introduction (17)574.1 DSI Layer Definitions (18)58594.2 Command and Video Modes (19)4.2.1 Command Mode (19)604.2.2 Video Mode Operation (19)61624.2.3 Virtual Channel Capability (20)5 DSI Physical Layer (21)635.1 Data Flow Control (21)645.2 Bidirectionality and Low Power Signaling Policy (21)65665.3 Command Mode Interfaces (22)5.4 Video Mode Interfaces (22)67685.5 Bidirectional Control Mechanism (22)5.6 Clock Management (23)695.6.1 Clock Requirements (23)70715.6.2 Clock Power and Timing (24)5.7 System Power-Up and Initialization (24)726 Multi-Lane Distribution and Merging (26)73746.1 Multi-Lane Interoperability and Lane-number Mismatch (27)6.1.1 Clock Considerations with Multi-Lane (28)756.1.2 Bidirectionality and Multi-Lane Capability (28)76776.1.3 SoT and EoT in Multi-Lane Configurations (28)7 Low-Level Protocol Errors and Contention (31)787.1 Low-Level Protocol Errors (31)79807.1.1 SoT Error (31)7.1.2 SoT Sync Error (32)81827.1.3 EoT Sync Error (32)837.1.4 Escape Mode Entry Command Error (33)7.1.5 LP Transmission Sync Error (33)847.1.6 False Control Error (33)85867.2 Contention Detection and Recovery (34)7.2.1 Contention Detection in LP Mode (34)877.2.2 Contention Recovery Using Timers (34)88897.3 Additional Timers (37)7.3.1 Turnaround Acknowledge Timeout (TA_TO) (37)90917.3.2 Peripheral Reset Timeout (PR_TO) (37)7.4 Acknowledge and Error Reporting Mechanism (38)928 DSI Protocol (39)93948.1 Multiple Packets per Transmission (39)8.2 Packet Composition (40)958.3 Endian Policy (41)96978.4 General Packet Structure (41)8.4.1 Long Packet Format (41)988.4.2 Short Packet Format (43)991008.5 Common Packet Elements (43)8.5.1 Data Identifier Byte (43)1018.5.2 Error Correction Code (44)1021038.6 Interleaved Data Streams (45)8.6.1 Interleaved Data Streams and Bidirectionality (45)1048.7 Processor to Peripheral Direction (Processor-Sourced) Packet Data Types (46)1051068.8 Processor-to-Peripheral Transactions – Detailed Format Description (47)8.8.1 Sync Event (H Start, H End, V Start, V End), Data Type = XX 0001 (0xX1) (47)1078.8.2 EoTp, Data Type = 00 1000 (0x08) (47)1081098.8.3 Color Mode Off Command, Data Type = 00 0010 (0x02) (48)8.8.4 Color Mode On Command, Data Type = 01 0010 (0x12) (48)1101118.8.5 Shutdown Peripheral Command, Data Type = 10 0010 (0x22) (49)8.8.6 Turn On Peripheral Command, Data Type = 11 0010 (0x32) (49)1128.8.7 Generic Short WRITE Packet with 0, 1, or 2 parameters, Data Types = 00 0011 (0x03), 01 1131140011 (0x13), 10 0011 (0x23), Respectively (49)8.8.8 Generic READ Request with 0, 1, or 2 Parameters, Data Types = 00 0100 (0x04), 01 0100 115116(0x14), 10 0100(0x24), Respectively (49)1178.8.9 DCS Commands (50)8.8.10 Set Maximum Return Packet Size, Data Type = 11 0111 (0x37) (51)1181198.8.11 Null Packet (Long), Data Type = 00 1001 (0x09) (51)1208.8.12 Blanking Packet (Long), Data Type = 01 1001 (0x19) (51)8.8.13 Generic Long Write, Data Type = 10 1001 (0x29) (51)1218.8.14 Loosely Packed Pixel Stream, 20-bit YCbCr 4:2:2 Format, Data Type = 00 1100 (0x0C) (51)1221238.8.15 Packed Pixel Stream, 24-bit YCbCr 4:2:2 Format, Data Type = 01 1100 (0x1C) (53)8.8.16 Packed Pixel Stream, 16-bit YCbCr 4:2:2 Format, Data Type = 10 1100 (0x2C) (54)1248.8.17 Packed Pixel Stream, 30-bit Format, Long Packet, Data Type = 00 1101 (0x0D) (54)1251268.8.18 Packed Pixel Stream, 36-bit Format, Long Packet, Data Type = 01 1101 (0x1D) (55)8.8.19 Packed Pixel Stream, 12-bit YCbCr 4:2:0 Format, Data Type = 11 1101 (0x3D) (56)1271288.8.20 Packed Pixel Stream, 16-bit Format, Long Packet, Data Type 00 1110 (0x0E) (57)8.8.21 Packed Pixel Stream, 18-bit Format, Long Packet, Data Type = 01 1110 (0x1E) (58)1298.8.22 Pixel Stream, 18-bit Format in Three Bytes, Long Packet, Data Type = 10 1110 (0x2E) (60)1301318.8.23 Packed Pixel Stream, 24-bit Format, Long Packet, Data Type = 11 1110 (0x3E) (61)8.8.24 DO NOT USE and Reserved Data Types (62)1328.9 Peripheral-to-Processor (Reverse Direction) LP Transmissions (62)1331348.9.1 Packet Structure for Peripheral-to-Processor LP Transmissions (62)8.9.2 System Requirements for ECC and Checksum and Packet Format (63)1358.9.3 Appropriate Responses to Commands and ACK Requests (63)1361378.9.4 Format of Acknowledge and Error Report and Read Response Data Types (65)8.9.5 Error Reporting Format (65)1388.10 Peripheral-to-Processor Transactions – Detailed Format Description (67)1391408.10.1 Acknowledge and Error Report, Data Type 00 0010 (0x02) (68)8.10.2 Generic Short Read Response, 1 or 2 Bytes, Data Types = 01 0001 or 01 0010, Respectively 141142681438.10.3 Generic Long Read Response with Optional Checksum, Data Type = 01 1010 (0x1A) (68)8.10.4 DCS Long Read Response with Optional Checksum, Data Type 01 1100 (0x1C) (69)1448.10.5 DCS Short Read Response, 1 or 2 Bytes, Data Types = 10 0001 or 10 0010, Respectively . 69 1451468.10.6 Multiple Transmissions and Error Reporting (69)8.10.7 Clearing Error Bits (69)1478.11 Video Mode Interface Timing (69)1481498.11.1 Transmission Packet Sequences (70)8.11.2 Non-Burst Mode with Sync Pulses (71)1501518.11.3 Non-Burst Mode with Sync Events (72)8.11.4 Burst Mode (73)1528.11.5 Parameters (74)1538.12 TE Signaling in DSI (75)1541559 Error-Correcting Code (ECC) and Checksum (77)9.1 Packet Header Error Detection/Correction (77)1561579.2 Hamming Code Theory (77)1589.3 Hamming-modified Code Applied to DSI Packet Headers (78)9.4 ECC Generation on the Transmitter (81)1599.5 Applying ECC on the Receiver (82)1601619.6 Checksum Generation for Long Packet Payloads (82)10 Compliance, Interoperability, and Optional Capabilities (84)16210.1 Display Resolutions (84)16316410.2 Pixel Formats (85)10.2.1 Video Mode (85)16516610.2.2 Command Mode (85)10.3 Number of Lanes (85)16710.4 Maximum Lane Frequency (85)16816910.5 Bidirectional Communication (86)10.6 ECC and Checksum Capabilities (86)17010.7 Display Architecture (86)17117210.8 Multiple Peripheral Support (86)10.9 EoTp Support and Interoperability (86)173Annex A Contention Detection and Recovery Mechanisms (informative) (87)174175A.1 PHY Detected Contention (87)A.1.1 Protocol Response to PHY Detected Faults (87)176Annex B Checksum Generation Example (informative) (93)177178Annex C Interlaced Video Transmission Sourcing (95)179180Figures181Figure 1 DSI Transmitter and Receiver Interface (17)182Figure 2 DSI Layers (18)183184Figure 3 Basic HS Transmission Structure (21)Figure 4 Peripheral Power-Up Sequencing Example (25)185Figure 5 Lane Distributor Conceptual Overview (26)186187Figure 6 Lane Merger Conceptual Overview (27)Figure 7 Four-Lane Transmitter with Two-Lane Receiver Example (28)188Figure 8 Two Lane HS Transmission Example (29)189190Figure 9 Three Lane HS Transmission Example (30)Figure 10 HS Transmission Examples with EoTp disabled (40)191192Figure 11 HS Transmission Examples with EoTp enabled (40)Figure 12 Endian Example (Long Packet) (41)193Figure 13 Long Packet Structure (42)194195Figure 14 Short Packet Structure (43)Figure 15 Data Identifier Byte (44)196Figure 16 Interleaved Data Stream Example with EoTp disabled (45)197198Figure 17 Logical Channel Block Diagram (Receiver Case) (45)Figure 18 20-bit per Pixel – YCbCr 4:2:2 Format, Long Packet (52)199Figure 19 24-bit per Pixel – YCbCr 4:2:2 Format, Long Packet (53)200201Figure 20 16-bit per Pixel – YCbCr 4:2:2 Format, Long Packet (54)Figure 21 30-bit per Pixel (Packed) – RGB Color Format, Long Packet (55)202Figure 22 36-bit per Pixel (Packed) – RGB Color Format, Long Packet (56)203Figure 23 12-bit per Pixel – YCbCr 4:2:0 Format (Odd Line), Long Packet (57)204205Figure 24 12-bit per Pixel – YCbCr 4:2:0 Format (Even Line), Long Packet (57)Figure 25 16-bit per Pixel – RGB Color Format, Long Packet (58)206207Figure 26 18-bit per Pixel (Packed) – RGB Color Format, Long Packet (59)Figure 27 18-bit per Pixel (Loosely Packed) – RGB Color Format, Long Packet (60)208Figure 28 24-bit per Pixel – RGB Color Format, Long Packet (61)209210Figure 29 Video Mode Interface Timing Legend (71)Figure 30 Video Mode Interface Timing: Non-Burst Transmission with Sync Start and End (72)211Figure 31 Video Mode Interface Timing: Non-burst Transmission with Sync Events (73)212213Figure 32 Video Mode Interface Timing: Burst Transmission (74)Figure 33 24-bit ECC generation on TX side (81)214Figure 34 24-bit ECC on RX Side Including Error Correction (82)215216Figure 35 Checksum Transmission (83)Version 1.02.00 r0.07 30-Mar-2010 DRAFTMIPI Alliance Specification for DSI Figure 36 16-bit CRC Generation Using a Shift Register (83)217Figure 37 LP High ÅÆ LP Low Contention Case 1 (89)218219Figure 38 LP High ÅÆ LP Low Contention Case 2 (91)Figure 39 LP High ÅÆ LP Low Contention Case 3 (92)220221Figure 40 Video Mode Interface Timing: Non-burst Transmission with Sync Start and End (Interlaced 222Video) (95)Figure 41 Video Mode Interface Timing: Non-burst Transmission with Sync Events (Interlaced Video) (96)223224225Tables226Table 1 Sequence of Events to Resolve SoT Error (HS RX Side) (32)227Table 2 Sequence of Events to Resolve SoT Sync Error (HS RX Side) (32)228229Table 3 Sequence of Events to Resolve EoT Sync Error (HS RX Side) (33)Table 4 Sequence of Events to Resolve Escape Mode Entry Command Error (RX Side) (33)230Table 5 Sequence of Events to Resolve LP Transmission Sync Error (RX Side) (33)231232Table 6 Sequence of Events to Resolve False Control Error (RX Side) (34)Table 7 Low-Level Protocol Error Detection and Reporting (34)233Table 8 Required Timers and Timeout Summary (35)234235Table 9 Sequence of Events for HS RX Timeout (Peripheral initially HS RX) (35)Table 10 Sequence of Events for HS TX Timeout (Host Processor initially HS TX) (36)236237Table 11 Sequence of Events for LP TX-Peripheral Timeout (Peripheral initially LP TX) (36)Table 12 Sequence of Events for Host Processor Wait Timeout (Peripheral initially TX) (36)238Table 13 Sequence of Events for BTA Acknowledge Timeout (Peripheral initially TX) (37)239240Table 14 Sequence of Events for BTA Acknowledge Timeout (Host Processor initially TX) (37)Table 15 Sequence of Events for Peripheral Reset Timeout (37)241Table 16 Data Types for Processor-sourced Packets (46)242243Table 17 EoT Support for Host and Peripheral (48)Table 18 Error Report Bit Definitions (66)244Table 19 Data Types for Peripheral-sourced Packets (67)245246Table 20 Required Peripheral Timing Parameters (74)Table 21 ECC Syndrome Association Matrix (78)247Table 22 ECC Parity Generation Rules (79)248Table 23 Display Resolutions (84)249250Table 24 LP High ÅÆ LP Low Contention Case 1 (87)Table 25 LP High ÅÆ LP Low Contention Case 2 (90)251252Table 26 LP High ÅÆ LP Low Contention Case 3 (92)253Copyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.MIPI Alliance Member Confidential.DRAFT MIPI Alliance Specification for 254Display Serial Interface255 1 Overview 256The Display Serial Interface Specification defines protocols between a host processor and peripheral 257devices that adhere to MIPI Alliance specifications for mobile device interfaces. The DSI specification 258builds on existing specifications by adopting pixel formats and command set defined in [MIPI02], 259[MIPI03], and [MIPI01]. 2601.1 Scope 261Interface protocols as well as a description of signal timing relationships are within the scope of this 262document. 263Electrical specifications and physical specifications are out of scope for this document. In addition, legacy 264interfaces such as DPI-2 and DBI-2 are also out of scope for this document. Furthermore, device usage of 265auxiliary buses such as I 2C or SPI, while not precluded by this specification, are also not within its scope. 2661.2 Purpose 267The Display Serial Interface specification defines a high-speed serial interface between a peripheral, such 268as an active-matrix display module, and a host processor in a mobile device. By standardizing this 269interface, components may be developed that provide higher performance, lower power, less EMI and 270fewer pins than current devices, while maintaining compatibility across products from multiple vendors.2712722 Terminology (informative)273274The MIPI Alliance has adopted Section 13.1 of the IEEE Standards Style Manual, which dictates use of the 275words “shall”, “should”, “may”, and “can” in the development of documentation, as follows:276The word shall is used to indicate mandatory requirements strictly to be followed in order277to conform to the standard and from which no deviation is permitted (shall equals is278required to).279The use of the word must is deprecated and shall not be used when stating mandatory280requirements; must is used only to describe unavoidable situations.281The use of the word will is deprecated and shall not be used when stating mandatory282requirements; will is only used in statements of fact.283The word should is used to indicate that among several possibilities one is recommended284as particularly suitable, without mentioning or excluding others; or that a certain course285of action is preferred but not necessarily required; or that (in the negative form) a certain286course of action is deprecated but not prohibited (should equals is recommended that).287The word may is used to indicate a course of action permissible within the limits of the288standard (may equals is permitted).289The word can is used for statements of possibility and capability, whether material,290physical, or causal (can equals is able to).All sections are normative, unless they are explicitly indicated to be informative.291292Numbers are decimal unless otherwise indicated. Hexadecimal numbers have a “0x” prefix. Binary 293numbers are prefixed by “0b”.2.1 Definitions294295Forward Direction: The signal direction is defined relative to the direction of the high-speed serial clock. 296Transmission from the side sending the clock to the side receiving the clock is the forward direction.297Half duplex: Bidirectional data transmission over a Lane allowing both transmission and reception but 298only in one direction at a time.299HS Transmission: Sending one or more packets in the forward direction in HS Mode. A HS Transmission is delimited before and after packet transmission by LP-11 states.300301Host Processor: Hardware and software that provides the core functionality of a mobile device.302Lane: Consists of two complementary Lane Modules communicating via two-line, point-to-point Lane 303Interconnects. A Lane can be used for either Data or Clock signal transmission.304Lane Interconnect: Two-line, point-to-point interconnect used for both differential high-speed signaling 305and low-power, single-ended signaling.Lane Module: Module at each side of the Lane for driving and/or receiving signals on the Lane.306Copyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.Link: A connection between two devices containing one Clock Lane and at least one Data Lane. A Link 307308consists of two PHYs and two Lane Interconnects.309LP Transmission: Sending one or more packets in either direction in LP Mode or Escape Mode. A LP 310Transmission is delimited before and after packet transmission by LP-11 states.311Packet: A group of four or more bytes organized in a specified way to transfer data across the interface. All 312packets have a minimum specified set of components. The byte is the fundamental unit of data from which 313packets are made.314Payload: Application data only – with all Link synchronization, header, ECC and checksum and other 315protocol-related information removed. This is the “core” of transmissions between host processor and 316peripheral.317PHY: The set of Lane Modules on one side of a Link.318PHY Configuration: A set of Lanes that represent a possible Link. A PHY configuration consists of a 319minimum of two Lanes: one Clock Lane and one or more Data Lanes.320Reverse Direction: Reverse direction is the opposite of the forward direction. See the description for 321Forward Direction.322Transmission: Refers to either HS or LP Transmission. See the HS Transmission and LP Transmission 323definitions for descriptions of the different transmission modes.324Virtual Channel: Multiple independent data streams for up to four peripherals are supported by this 325specification. The data stream for each peripheral is a Virtual Channel. These data streams may be 326interleaved and sent as sequential packets, with each packet dedicated to a particular peripheral or channel. 327Packet protocol includes information that directs each packet to its intended peripheral.328Word Count: Number of bytes within the payload.2.2 Abbreviations329330e.g. Forexample2.3 Acronyms331332ProtocolAIP ApplicationIndependent333AM Active matrix (display technology)ASP Application Specific Protocol334335BLLP Blanking or Low Power interval336PixelBPP Bitsper337BTA BusTurn-Around338InterfaceSerialCSI Camera339DBI Display Bus InterfaceCopyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.DI Data340Identifier341DMA Direct Memory AccessDPI Display Pixel Interface342343DSI Display Serial InterfaceDT Data344Type345ECC Error-CorrectingCode346EMI Electro Magnetic interference347EoTp End of Transmission Packet348DischargeESD Electrostatic349Fps Frames per second350HBP Horizontal Back PorchHFP Horizontal Front Porch351352SpeedHS High353HSA Horizontal Sync Active354HSE Horizontal Sync End355HSS Horizontal Sync Start356ISTO Industry Standards and Technology Organization357PowerLP Low358LPS Low Power State (state of serial data line when not transferring high-speed serial data) LSB Least Significant Bit359second360perMbps Megabits361MIPI Mobile Industry Processor InterfaceMSB Most Significant Bit362363PF PacketFooterHeader364PH PacketLayer365PHY Physical366InterfacePPI PHY-ProtocolCopyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.367QCIF Quarter-size CIF (resolution 176x144 pixels or 144x176 pixels)368QVGA Quarter-size Video Graphics Array (resolution 320x240 pixels or 240x320 pixels) 369RGB Color presentation (Red, Green, Blue)370SLVS Scalable Low Voltage Signaling371SoT Start of Transmission372SVGA Super Video Graphics Array (resolution 800x600 pixels or 600x800 pixels)373StateULPS Ultra-lowPower374VGA Video Graphics Array (resolution 640x480 pixels or 480x640 pixels)375ActiveVSA VerticalSync376EndSyncVSE Vertical377StartSyncVSS VerticalCount378WC Word379WVGA Wide VGA (resolution 800x480 pixels or 480x800 pixels)380Copyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.3 References (informative)381382[MIPI01] MIPI Alliance Specification for Display Command Set, version 1.02.00, MIPI Alliance, 383In Press384[MIPI02] MIPI Alliance Standard for Display Bus Interface (DBI-2), version 2.00, MIPI Alliance, 38529 November 2005386[MIPI03] MIPI Alliance Standard for Display Pixel Interface (DPI-2), version 2.00, MIPI Alliance, 38715 September 2005388[MIPI04] MIPI Alliance Specification for D-PHY, version 0.90.00, MIPI Alliance, 8 October 2007 389A DTV Profile for Uncompressed High Speed Digital Interfaces,[CEA01] CEA-861-E,</Standards/browseByCommittee_2641.asp>, Consumer Electronics 390Association, March 2008391Studio encoding parameters of digital television for standard 4:3 and wide 392[ITU01] BT.601-6,393screen 16:9 aspect ratios, <http://www.itu.int/rec/R-REC-BT.601-6-200701-I/en>,394International Telecommunications Union, 23 February 2007395[ITU02] BT.709-5,Parameter values for the HDTV standards for production and international 396programme exchange, <http://www.itu.int/rec/R-REC-BT.709-5-200204-I/en>,397International Telecommunications Union, 27 August 2009398Interface for digital component video signals in 525-line and 625-line [ITU03] BT.656-5,399television systems operating at the 4:2:2 level of Recommendation ITU-R BT.601,400<http://www.itu.int/rec/R-REC-BT.656-5-200712-I/en>, International401Telecommunications Union, 1 January 2008402Transformations Between Television Component Color Signals, Society for36-2000,[SMPT01] EG403Motion Picture and Television Engineers, 23 March 2000404Much of DSI is based on existing MIPI Alliance specifications as well as several MIPI Alliance 405specifications in simultaneous development. In the Application Layer, DSI duplicates pixel formats used in 406[MIPI03] when it is in Video Mode operation. For display modules with a display controller and frame 407buffer, DSI shares a common command set with [MIPI02]. The command set is documented in [MIPI01].3.1 Display Bus Interface Standard for Parallel Signaling (DBI-2)408409DBI-2 is a MIPI Alliance standard for parallel interfaces to display modules having display controllers and 410frame buffers. For systems based on these standards, the host processor loads images to the on-panel frame 411buffer through the display processor. Once loaded, the display controller manages all display refresh 412functions on the display module without further intervention from the host processor. Image updates 413require the host processor to write new data into the frame buffer.414DBI-2 specifies a parallel interface where data can be sent to the peripheral over an 8-, 9- or 16-bit-wide 415data bus, with additional control signals. DBI-2 supports a 1-bit data bus interface mode as well.416The DSI specification supports a Command Mode of operation. Like the parallel DBI, a DSI-compliant 417interface sends commands and parameters to the display. However, all information in DSI is first serializedCopyright © 2005-2010 MIPI Alliance, Inc. All rights reserved.。