200901828 九、發明說明: 【明所屬技領;^】 發明領域 本發明係有關於一種光源裝置,特別是有關於一種將 5數個放電燈排列安裝成並列,使該等同時亮燈,以ic晶片 管理燈資訊之光源裝置。 I[先·葡~3 發明背景 習知’低壓水銀燈用於各種用途。波長有185mn及 10 254nm兩種或者主要放射245nml種之短波長紫外線之低壓 水銀燈用於各種光化學反應或表面改質、殺菌等用途。習 知之低壓水銀燈之例有揭示於專利文獻1之低壓水銀燈。再 者’近年來,亦使用利用從準分子放射之光之燈。習知準 分子燈之例有揭示於專利文獻2之準分子燈裝置。此種燈亦 15有使用數千小時之情形。在光源裝置中,藉更換燈之同時, 重新設定亮燈時間,計算亮燈時間,將複數個燈同步進行 壽命管理。亦有藉於放電燈設置1C晶片,於光源裝置設置 將記錄在1C晶片之資訊寫入之裝置,管理放電燈之亮燈時 間等’作業員可適當地辨識放電燈之更換時期之方法。以 20 下’列舉幾個與此相關之習知技術例。 專利文獻1所揭示之「低壓水銀燈」係控制發光管之最 冷部之溫度,將水銀蒸氣壓維持在預定值,可以低價輕易 地進行維護。如第7(a)圖所示,U字形閥之發光管兩端部有 陰極與陽極。電極部以金屬塊及金屬板固定。藉經氣體溫 5 200901828 度S周節裝置調節溫度之氣體吹至電極後部,將發光管部之 最冷部之溫度維持在40°c。 專利文獻2所揭不之「準分子燈裝置」係設有可確實防 止冷卻媒體之外漏’同時,防止外力造成之破損之接頭。 5如第7(b)圖所示’聽置於同軸q狀外管及内管,形成放 電空間。於放電空間之兩側配置電極。藉由冷卻媒體導管 冷卻媒體流至以内管形成之内部空間。藉將低壓水銀燈或 準刀子燈並列配置數個或數10個’使該等同時亮燈,可照 射大面積。 1〇 專利文獻3所揭7^「光源燈單元」係反射鏡之反射面 4伤不變形者^如第7(e)圖所示,燈資訊保持部保持光源燈 之類別資訊。在裝设光源燈單元之光學機器之光源裝置之 侧,檢測燈類別。可依燈類別,在最適當之控制形態,亮 燈驅動光源燈單元。可將種類不同之具互換性之光源燈單 15 元裝設於同一光源裝置。 專利文獻4所揭示之「調光系統」係告知連接於調光器 ,各照明器具之正確累積亮燈時間等之監視資訊或器具資 ★者纟第7(d)®所tf ’照明器具有具識別號碼之肌〇標 籤。調光器具有識職瑪之RF【D標籤,進行照明器具之調 光控制發送„周光控制狀態。RFm讀取裝置從照明器具與 “光器之RFlDe取成對之兩識別號碼。調光裝置控制調光 器之驅動’同時,依照明器具與調光器之成對識別號碼, 作成顯示各照明器具之監視内容之資料庫。 專利文獻5所齡之「消耗品更換時間管㈣、統」係管 200901828 肖耗σσ之使用開始時期與使用經過時間,當更換時間到 3夺便自動通知使用者。如第7(e)圖所*,消耗品燈可裝卸 地安名於螢光燈。撕除貼於消耗品晶片之封條,裝設於榮 光燈。以讀寫器與Ic標籤以不接觸狀態通信,檢測裝設狀 5態’同時’進行裝設狀態資訊之讀寫。依所讀取之裝設狀 ‘癌資訊’進行螢光燈之使用開始判斷。從使用開始時刻經 過一定壽命,通知使用者更換螢光燈。 【專利文獻1】日本專利公開公報2001-135486號 【專利文獻2】日本專利公開公報2003-068251號 10 【專利文獻3】日本專利公開公報2004-006360號 【專利文獻4】日本專利公開公報2005-183050號 【專利文獻5】日本專利公開公報2006-085344號 【發明内容】 發明揭示 15發明欲解決之問題 然而’習知之放電燈認證方法有以下之問題。在使用 複數個放電燈之光源裝置中,於與各放電燈之資訊保持部 相對之位置需對應放電燈數之讀取裝置。因此,當排列數 十個放電燈,使該等同時亮燈時,與光源裝置之讀取装置 相關之電路結構繁雜,讀取裝置高價。且由於放電燈肩園 為高溫,故當排列數十個放電燈’使該等同時亮燈時,排 歹J之中央附延明顯形成高溫。因此,通信線在持續使用放 電燈數次後惡化,而喪失通信之可靠度。 本發明之目的係解決上述習知之問題,使使用複數放 7 200901828 電燈之光源裂置之燈資訊讀取電路簡單化,可以低成本確 實地管理燈資訊。 用以欲解決問題之手段 為解決上述課題,本發明之結構係於包含有進行放電 5之發光管、用以保持前述發光管之基座、將電力供給至前 述發光管之電極之供電線之基座具有設置於相對之側面之 端子部、連接兩側面對應之各端子部之通信線、連接於前 述端子。卩之ic晶片。端子部由與相鄰之基座之端子部連接 且没置於相對之側面之複數對端子部、及設置於一側面之i 10個不成對端子部構成,通信線由將各對端子部之其中一者 連接位在傾斜之位置的對應端子部之第丨通信線及將前述 ICa曰片連接於前述不成對端子部之第2通信線構成。或者, 端子。卩與相鄰之基座之端子部連接且於相對之側面設置工 對’而通信線係將丨對前述端子部與前述ic晶片相互連接 15者。端子部設置於前述基座之側面凹部之底。 1C晶片具有保持具燈資訊、輸送履歷資訊、亮燈履歷 貝訊之任—者之資訊的機構。前述燈資訊係製造年月曰、 製w者名、製造處、製造線、燈型式、種類號碼、批號碼、 識別號碼、額定燈電流、額定燈電壓、冷卻條件、在裝置 2〇之安裝方向、使用限度時間之任一者或該等之組合之資 況,則述輸送履歷資訊係工廠出貨時間、倉庫入庫、出庫 時間、代理店入貨、出貨時間、出貨目的地、輸送公司名、 貨物發票號碼、負責人名之任一者或該等之組合之資訊; 鈿述7C燈履歷資訊係壳燈開始時間、熄燈時間、再亮燈時 200901828 間、亮燈條件、亮熄次數、累計亮燈時間、裝置個體號碼、 裝置設定、裝置錯誤資訊、使用禁止資訊之任一者或該等 組合之資訊。 排列安裝有複數個放電燈,使其亮燈之光源裝置包含200901828 IX. INSTRUCTIONS: [Technical Fields]; Field of the Invention The present invention relates to a light source device, and more particularly to an arrangement of five discharge lamps arranged side by side so that the lights are simultaneously illuminated to ic A light source device for wafer management lamp information. I [First, Portuguese ~ 3 Background of the Invention] Low-pressure mercury lamps are used for various purposes. Low-pressure mercury lamps with wavelengths of 185mn and 10 254nm or mainly emitting 245nml of short-wavelength ultraviolet light are used for various photochemical reactions or surface modification and sterilization. An example of a conventional low-pressure mercury lamp is disclosed in the low-pressure mercury lamp of Patent Document 1. Furthermore, in recent years, a lamp using light emitted from an excimer has also been used. An example of a conventional quasi-molecular lamp is disclosed in the excimer lamp device of Patent Document 2. This type of lamp is also used for thousands of hours. In the light source device, by changing the lamp, the lighting time is reset, the lighting time is calculated, and a plurality of lamps are synchronized for life management. There is also a method in which a 1C wafer is provided by a discharge lamp, a device for writing information recorded on a 1C chip is set in the light source device, and a lighting time of the discharge lamp is managed, etc., and an operator can appropriately recognize the replacement timing of the discharge lamp. A few examples of the prior art related to this are listed below. The "low-pressure mercury lamp" disclosed in Patent Document 1 controls the temperature of the coldest portion of the arc tube, maintains the mercury vapor pressure at a predetermined value, and can be easily maintained at a low price. As shown in Fig. 7(a), the U-shaped valve has a cathode and an anode at both ends of the arc tube. The electrode portion is fixed by a metal block and a metal plate. By the gas temperature 5 200901828 degrees, the gas of the temperature adjustment of the S-week device is blown to the rear of the electrode, and the temperature of the coldest portion of the arc tube portion is maintained at 40 ° C. The "excimer lamp device" disclosed in Patent Document 2 is provided with a joint that can prevent leakage outside the cooling medium and prevent damage by external force. 5 As shown in Figure 7(b), the sound is placed in a coaxial q-shaped outer tube and inner tube to form a discharge space. Electrodes are disposed on both sides of the discharge space. The media stream is cooled by a cooling medium conduit to an internal space formed by the inner tube. A large number of areas can be illuminated by arranging a number of low-pressure mercury lamps or quasi-knife lamps side by side or by several 10's. 1) Patent Document 3 discloses that the "light source lamp unit" is the reflection surface of the mirror. 4 If the figure is not deformed, as shown in Fig. 7(e), the lamp information holding unit holds the type information of the light source lamp. The lamp type is detected on the side of the light source device of the optical device in which the light source lamp unit is mounted. Depending on the type of lamp, the light source unit can be driven by the light in the most appropriate control mode. A variety of interchangeable light source lamps can be installed in the same light source device. The "dimming system" disclosed in Patent Document 4 is for monitoring the information or the device that is connected to the dimmer, and the correct accumulated lighting time of each lighting fixture, etc. 纟 7(d)® tf 'illuminator has A tendon label with an identification number. The dimmer has the RF tag of the MG, and the dimming control of the illuminator is sent to the circumstance control state. The RFm reading device takes the identification number from the illuminating device and the RFrDe of the optical device. The dimming device controls the driving of the dimmer. At the same time, a pair of identification numbers of the lighting device and the dimmer are used to create a database for displaying the monitoring contents of the lighting devices. Patent Document 5, "Consumables Replacement Time Tube (4), System", 200901828 The use period of the consumption σσ and the elapsed time of use, the user will be automatically notified when the replacement time reaches 3 seconds. As shown in Figure 7(e), the consumable lights are detachably named in the fluorescent lamp. The seal attached to the consumable wafer is removed and installed in the glory. The reader/writer communicates with the Ic tag in a non-contact state, and the device state is detected while the device state is read and written. The judgment of the use of the fluorescent lamp is started according to the installation information "Cancer Information". The user is notified of the replacement of the fluorescent lamp after a certain period of life from the start of use. [Patent Document 1] Japanese Patent Laid-Open Publication No. 2001-135486 [Patent Document 2] Japanese Patent Laid-Open Publication No. 2003-068251 No. 10- Patent Publication No. 2003-006360 [Patent Document 4] Japanese Patent Laid-Open Publication No. 2005 [Patent Document 5] Japanese Patent Laid-Open Publication No. 2006-085344 [Draft of the Invention] The present invention discloses a problem to be solved by the invention. However, the conventional discharge lamp authentication method has the following problems. In a light source device using a plurality of discharge lamps, a reading device corresponding to the number of discharge lamps is required at a position opposed to the information holding portion of each discharge lamp. Therefore, when tens of discharge lamps are arranged so that the lights are simultaneously turned on, the circuit structure associated with the reading device of the light source device is complicated, and the reading device is expensive. Moreover, since the discharge lamp shoulder plate is at a high temperature, when the tens of discharge lamps are arranged to cause the lights to be simultaneously illuminated, the central extension of the discharge 明显 J is obviously formed at a high temperature. Therefore, the communication line deteriorates after continuously using the discharge lamp several times, and the reliability of communication is lost. SUMMARY OF THE INVENTION The object of the present invention is to solve the above-mentioned conventional problems, and to simplify the information reading circuit of a lamp using a plurality of light sources that are split by the light of the 200901828 lamp, and to reliably manage the lamp information at a low cost. Means for Solving the Problems In order to solve the above problems, the present invention is configured to include a light-emitting tube that discharges 5, a power supply line for holding the base of the light-emitting tube, and supplying electric power to the electrodes of the light-emitting tube. The susceptor has a terminal portion provided on the opposite side surface, and a communication line connecting the terminal portions corresponding to the two side surfaces, and is connected to the terminal.卩 ic chip. The terminal portion is composed of a plurality of pairs of terminal portions connected to the terminal portions of the adjacent bases and not disposed on the opposite side faces, and i 10 unpaired terminal portions provided on one side surface, and the communication lines are composed of the pair of terminal portions One of them is connected to a second communication line of the corresponding terminal portion at the inclined position and a second communication line for connecting the ICa chip to the unpaired terminal portion. Or, the terminal. The 卩 is connected to the terminal portion of the adjacent pedestal and is disposed on the opposite side, and the communication line connects the terminal portion and the ic wafer to each other. The terminal portion is disposed at a bottom of the side recess of the base. The 1C chip has a mechanism for holding information on the lamp information, the conveyance history information, and the lighting history. The aforementioned lamp information is the manufacturing date, manufacturing name, manufacturing office, manufacturing line, lamp type, type number, batch number, identification number, rated lamp current, rated lamp voltage, cooling condition, installation direction in the device 2〇 The use of the limit time or the combination of the conditions, the transfer history information is the factory shipment time, warehouse storage, delivery time, agent arrival, shipment time, shipping destination, delivery company Information on the name, the invoice number of the goods, the name of the person in charge, or a combination of these; the 7C lamp history information is the start time of the lamp, the time of the light-off, the time of the light, the time of the light, the time of the light, the number of lights, Accumulated lighting time, device individual number, device settings, device error information, usage prohibition information, or a combination of such information. Arranging a plurality of discharge lamps arranged to illuminate the light source device
5有藉由排列端放電燈之端子部,電性連接於各放電燈之IC 晶片之讀寫機構。該光源裝置包含有空基座,該空基座係 用以將各放電燈之κ:晶片電性連接於排列端放電燈1端子 部者,且具有設置於相對之側面並相互電性連接之端子 部'連接前述端子部之通信線、記錄有顯示為空之資訊並 10 連接於前述端子部之1C晶片。 15 20 燈單元係包含有放電燈、反射來自前述放電燈之放射 光之反射鏡·,支禮錢反射鏡之燈n電力供給至前述 放電燈之供電線;設置於相對之側面,且相互電 端子部;連接前述端子部之通信線;及保持具有燈資訊、 ,送履歷資訊、亮麟„訊之任_者之資訊,且連接於 則迷端子部之ICu。前述端子部與相鄰之燈單元之端子 :連接且於相對之側面設置丨對,並且前述通信線係將消 則述端子與前述1C晶片相互連接者。 排列安裝有複數寵單元,使其亮燈之紐裝置包含 =由_端燈單元之端子部’電性連接於各燈單元之冗 :.之讀寫機構;連接相鄰之料元之各端子部之中繼端 娃將^燈單元之1(:晶片電性連接於排列端燈單元 相互雷技空早70。前述空單元具有設置於相對之側面並 連接之端子部、連«述料部之驗線、及記 9 200901828 錄有顯示為空之資訊並連接於前述端子部之1C晶片。 發明效果 藉如以上構成,當將複數燈排列成並列,使其亮燈時, 亦可藉1C晶片以低成本確實地管理燈資訊。僅安裝各燈, 5 即可藉由通信線將1C晶片連接於光源裝置。由於與燈更換 同時,通信線亦換成新的,故可靠度不致因在高溫長時間 使用而惡化之通信線而降低。 圖式簡單說明 第1(a)圖〜第1(d)圖係顯示本發明第1實施例之放電燈 10 者。 第2(a)圖〜第2(b)圖係顯示於光源裝置排列安裝複數個 本發明第1實施例之放電燈之狀態者。 第3圖係說明在光源裝置讀寫設置於本發明第1實施例 之放電燈之1C晶片之動作者。 15 弟4(a)圖〜第4(b)圖係顯示於光源裝置排列安裝本發明 第1實施例之放電燈之狀態之變形例者。 第5圖係顯示於光源裝置排列安裝本發明第2實施例之 放電燈之狀態者。 第6圖係顯示於光源裝置排列安裝本㈣第3實施例之 20 燈單元之狀態者。 第7(a)圖〜第7(e)圖係、顯示習知之放電燈或光源裝置之 概念圖。 【實施方式】 用以實施發明之最佳形態 10 200901828 以下,參照第1圖〜第6圖,就用以實施本發明之最佳形 態禅細說明。 【第1實施例】 本發明之第1實施例係於基座設有連接相鄰基座之凹 5 凸狀端子、連接凹凸狀端子之通信線、連接於凹凸狀端子 之1C晶片之低壓水銀放電燈。 第1圖係顯示本發明第1實施例之低壓水銀放電燈者。 第1(a)圖係低壓水銀放電燈之上面圖,為與照射之面相反之 面。第1(b)圖係低壓水銀放電燈之左側面圖。第l(c)圖係低 10 麼水銀放電燈之右側面圖。第1(d)圖係低壓水銀放電燈之前 面圖,為低壓水銀放電燈之發光管理側之面。在第1(a)圖〜 第1(d)圖中,燈1為低壓水銀放電燈。發光管2為彎曲成u字 形之管’為在内部進行發光之部份。基座5係在光源裝置保 持發光管之部份。供電線4係將電力供給至燈1之導電性 15 線。供電線4連接於發光管2内部之圖中未示之電極。基座 上面7為位於與照射面相反側之基座表面。上流側基座側面 9為基座左側之表面。下流側基座側面1〇為基座右側之表 面。上流側凹部11為設置於上游侧基座侧面之凹部。下游 側凹部12為設置於下游側基座側面之凹部。 20 1C晶片20為保持關於放電燈之資訊及關於輸送之資訊 之無電源1C晶片。凸狀端子30a、30b、30c為以電性連接通 信線之凹凸嵌合之端子對之凸狀側的端子部份。凹狀端子 31a、31b為以電性連接通信線之凹凸嵌合之端子對之凹狀 側的端子部份。將凸狀端子及凹狀端子總稱為凹凸狀端子 11 200901828 或端子部。通信線40a係將上游側基座側面之凸狀端子3〇a 與下游侧基座側面之凹狀端子31a電性連接之導電性線。通 信線40b係將上游側基座側面之凸狀端子3 〇b與下游側基座 側面之凹狀端子31b電性連接之導電性線。通信線4〇c係將 5上游測基座侧面之凸狀端子30c與1C晶片20電性連接之導 電性線。 第2圖係顯示將低壓水銀放電燈排列安裝於光源裝置 之狀態者。在第2圖中,端子台51為將燈1A之凸狀端子3〇a、 30b、30c、光源裝置之ic晶片讀取裝置(圖中未示)電性連接 10之端子台。空基座15為僅具有1C晶片、端子部及通信線之 基座。第3圖係說明設置於光源裝置各燈之IC晶片之讀寫動 作者。第4圖係顯示排列安裝有複數個燈之光源裝置之變形 例者。弟4圖所示者為通信線1條,於燈各安裝1個凸狀端子 及凹狀端子。 15 說明如以上構成之本發明第1實施例之低壓水銀放電 燈之功能與動作。首先,參照第丨圖,說明低壓水銀放電燈 之功能之概要。發光管2係與習知之放電燈相同。基座5係 排列複數個燈1,將之安裝於光源裝置。設置於基座5之相 對側面(上游側基座側面9、下游側基座側面丨〇)之凹部(上游 2〇側凹部11、下游側凹部12)之底之端子部(凸狀端子30、凹狀 端子31)以通信線4〇相互電性連接。複數對端子部(凸狀端子 30a與凹狀端子31a、凸狀端子嫌與凹狀端子3叫以與相鄰 之基座5之端子部連接之狀態設置於相對之側面。凸狀端子 30a、30b以第1通信線4〇a、4〇b連接於位於傾斜之位置之對 12 200901828 應的凹狀端子Ma、31WC晶片2〇以第2通信線输連接於 設置在上游側基座側面9之不成對端子部之凸狀端子3此。 燈1之1C晶片20於連接各基座5時,個別連接於排列端之基 座5之端子部。藉由排列端之燈丨之端子部3〇連接讀寫機構 5時’可對1C晶片20個別進行燈之讀寫。從製造階段至亮燈 結束後,可隨時將必要之資訊寫入至1C晶片2〇。 寫入至1C晶片20之資訊有燈資訊、輪送資訊、開封資 afL、冗燈負訊。以下,就該等資訊作說明。燈資訊係由燈 個別資訊、裝置設定資訊組成。燈個別資訊為製造年月日、 10製造者名、製造處 '製造線、燈型式、種類號碼 '批號碼、 識別號碼等。裝置設定資訊係額定燈電流、額定燈電壓、 冷卻條件、在裝置之安裝方向、使用限度時間等。亮燈資 訊係亮燈開始時間、熄燈時間、再亮燈時間、亮燈條件、 亮燈配置、亮熄次數、累計亮燈時間、裝置個體號碼、裝 15置設定、裝置錯誤資訊、使用禁止資訊等。在此,亮燈配 置係顯示在複數個燈之排列之何處亮燈之資訊。該等資訊 不僅可用於燈使用狀況之管理,亦有助於燈產生異常時之 原因調查。 接著’參照第2圖,就排列安裝有複數個燈之光源裝置 20作說明。端子台51、燈1A、燈1B、燈1C在基座5之側面相 鄰。端子台51之凹狀端子31Sa與燈1A之凸狀端子30Aa電性 連接。端子台51之凹狀端子31Sb與燈1A之凸狀端子3〇Ab電 性連接。端子台51之凹狀端子31Sc與燈1A之凸狀端子3〇Ac 電性連接。燈1A之凹狀端子31Aa與燈1B之凸狀端子3〇Bb 13 200901828 電性連接。燈1A之凹狀端子31Ab與燈1B之凸狀端子3〇Bc 電性連接。燈1B之凸狀端子30Ba未連接任何元件。燈⑴之 凹狀端子31Bb與燈1C之凸狀端子30Cb電性連接。燈lc之凹 狀端子31Ba與燈1C之凸狀端子30Cc電性連接。燈lc之凸狀 5端子30Ca、凹狀端子31Ca、凹狀端子31Cb未連接任何元件。 藉如此連接複數燈1,端子台51之凹狀端子3iSa與燈lc 之1C晶片20電性連接’端子台η之凹狀端子31处與燈化之 1C晶片20B電性連接,端子台51之凹狀端子31Sc與燈〖八之 1C晶片20A電性連接。藉如此構成,光源裝置之讀寫裝置可 10讀取記錄於各燈1之1C晶片20之記憶體之資訊。端子部可為 從光源裝置卸除1個燈之結構。第2(b)圖係顯示插入空基座 時之例者。藉卸除一部份之放電燈,安裝空基座15,可減 、光畺來使用。空基座15僅具有ic晶片200、端子部3〇D、 通信部40D。以空基座15之通信線40D連接兩側之基座5。 15於1C晶片20D記錄顯示空基座之資訊。 接著,參照第3圖,說明1C晶片之讀寫方法。於IC晶片 20之s己憶體記錄燈資訊或亮燈資訊。以光源裝置之系統部 之控制,讀寫裝置藉由端子台51與通信線40,對燈ΙΑ、1B、 1C之各1C晶片2GA、2GB、2GC進行燈資訊或亮燈資訊之讀 20寫。1c晶片20與讀寫裝置間之通信方式亦可為在電腦等周 邊機器等使用之USB連接或SCSI連接。亦可為應用在金融 卡等使用之1C卡之認證技術。亦可為更單純之通信方式。 光源裝置之系統部對照記憶裝置之資訊與從忙晶片2〇讀取 之資訊,判斷對於各燈之亮燈與否。依結果,光源裝置顯 200901828 示為不可亮燈或自動使燈亮燈。 說明從製造燈後至停止使用為止,讀寫1C晶片之方 法。製造燈時,於1C晶片寫入燈資訊。將燈安裝於光源裝 置時,於光源裝置使燈亮燈前,讀入寫入至1C晶片之燈資 5 訊及亮燈資訊,進行可否亮燈之判斷,進行以下所示之顯 示或動作。當無法辨識1C晶片時或根據燈資訊,為不適合 光源裝置之燈種類時,光源裝置發出警告。光源裝置不僅 對作業員發出警告,亦可強制無法使用燈。在光源裝置之 複數燈中,不將電力供給至無法辨識1C晶片之位置之燈。 10 為不適合光源裝置之燈種類時,亦不供給電力。使判斷為 其他可亮燈之位置之燈亮燈。舉例言之,當於4燈式光源裝 置僅安裝3個燈時,不將電力供給至第4個燈之位置。 於使用燈之期間,在光源裝置中,寫入以下之亮燈資 訊。當開始使燈亮燈時,將亮燈開始時間及亮燈時間寫入 15 1C晶片。亦於規定時間亮燈後,將亮燈時間及亮燈條件等 寫入1C晶片。再者,當亮燈時間在燈之壽命以上時,對作 業員發出警告或強制熄燈。當使燈熄燈時,將亮燈時間及 熄燈時間寫入1C晶片。當光源裝置之系統部判斷燈之亮燈 狀態為異常時,於強制使燈熄燈後,將異常狀態及發生時 20 間記錄作為亮燈資訊寫入至1C晶片。異常狀態以錯誤碼等 記錄。當為不可再亮燈之燈異常時,將使用禁止之亮燈資 訊寫入至1C晶片。當使燈再亮燈時,於光源裝置使燈亮燈 前,讀入寫入至1C晶片之燈資訊或亮燈資訊,進行可否亮 燈之判斷。因此,由於在使用壽命中途,更換燈時,亮燈 15 200901828 夺門等之使用履歷仍作為記錄遺留於燈本體之冗晶片故 可依各燈管理燈壽命。 到達規定壽命之燈於IC晶片寫入因到達規定壽命,而 τ止使用之免燈資。當光源裝置之系統判斷為異常燈, 5不可再冗燈之燈,於扣晶片寫入禁止使用之亮燈資訊。具 有寫入禁止使用之使用資訊之1C晶片之燈由於根據光源裝 置之系統之亮燈與否之判斷拒絕亮燈動作,故可防止出 錯,再党燈。又,在光源裝置中,亦可從扣晶片讀取燈資 Λ作為使用停止之燈而記錄於記憶裝置。當回收停止使 10用之1C晶片時,由於可從1(:晶片之亮燈資訊掌握燈之使用 狀況,故有助於今後之燈品質管理。又,因燈異常而停止 亮燈時,亦有助於其原因調查。 藉如以上構成,可管理燈資訊。可防止不適合光源裝 置之燈使用引起之事故發生。又,由於於燈基座側面之凹 15部底面設有端子部,故亦可在未管理燈資訊之習知光源裝 置使用。再者,亦可彈性地因應使用個數之變更。當排列 使用複數燈時,可使燈與光源裝置之通信線之配線簡單。 由於僅女裝燈’即可連接通信線,故燈之更換作業簡單。 由於通信線於更換燈之同時,亦換成新的,故在高溫範圍 20 之長時間使用可靠度不致降低。 藉凸狀端子與凹狀端子嵌合,通信線電性連接。端子 部不限於此,為眾所周知之適當連接器即可。亦可捆綁複 數條通信線,作為1個群組,以1個連接器之端子連接。又, 通信線亦可不為線,為導電性箔或膜。說明了放電燈為3 16 200901828 個,通信線亦為3條之例,藉使用4條以上之通信線,可管 理4條以上之放電燈。 接著,說明使用1條通信線之例。第4圖係顯示排列安 裝複數個放魏於光源裝置之狀態者。通信彰條為串列通 5信用,於放電燈各設置1個凸狀端子與凹狀端子。藉如此構 成,可使放電燈之基座之通信線與端子部簡單化。串列通 信之方法應用眾所周知之通信方法即可。 第4(b)圖係顯不插入空基座之例者。在排列複數個燈, 使其免燈之光源裝置中,即使不使部份燈亮燈,亦可進行 1〇足夠之光照射時,有在不使_部份之燈亮燈之狀態或卸除 之狀態使用光源裝置之情形。IC晶片藉由接近讀取裝置側 之燈之通彳s線,與讀取裝置連接,故當未於接近讀取裝置 之側安裝燈時,便不連接冗晶片與讀取裝置。因此,如第4 圖所不,於不壳燈之燈之安裝部份安裝空基座15,排列燈。 15空基座15不具有發光管及供電線,僅以具有1C晶片200、端 子部30D、31D、通信線4〇D之基座構成。以設置於空基座 之通佗線,下游側之燈亦連接於讀取裝置。於IC晶片2〇D s己錄顯示空基座之資訊。是故,光源裝置之系統部可以讀 取裝置探測安裝有空基座。於安裝空基座之處不供給電力 20或冷卻媒體。其他動作與上例相同。 如上述,在本發明之第丨實施例中,由於於低壓水銀放 電燈之基座设置連接相鄰之基座之凹凸狀端子、連接凹凸 狀端子之通信線、連接於凹凸狀端子之1(:晶片,故可以簡 單之結構且可靠度佳地以1C晶片管理燈資訊。 17 200901828 【第2實施例】 本發明第2實施例係於基座設有連接相鄰基座之凹凸 狀端子、連接凹凸狀端子之通信線、連接於凹凸狀端子之 1C晶片之準分子燈。 5 第5圖係顯示將本發明第2實施例之燈排列安裝於光源 裝置之狀態者。在第5圖中,燈1A、IB、1C為準分子燈。 有由配置於同軸之筒狀外側管108及内側管1〇7構成之發光 部。於内側管107之内面設置圖中未示之内侧電極。於外側 管108之外面設有圖中未示之外側電極。基座丨〇5係用以將 10發光管保持在光源裝置之一端。前端側基座1〇6係用以將發 光管保持在光源裝置之另一端。供電線4係電性連接於内側 電極及外側電極’以將電力供給至放電燈之線。由於其他 之結構與第1實施例相同,故省略說明。 準分子燈之亮燈動作如下。於由内側管與外側管構成 15 之發光管之内部封入氙氣。於配設於内側管内面之内側電 極與配設於外側管外面之外側電極間施加2〇kHz左右之高 頻率電壓’產生介電質屏蔽放電。此時產生之氙之準分子 光(波長172nm)可穿透金屬網之外側電極36,有效率地取 出。亦可以同一構造’封入氙氣,將施加之電壓作為數MHz 20之高頻率。在此結構中,亦放出氙之準分子光(波長 172nm)。當令封入物為水銀及啟動用氬氣時,進行低壓水 銀之高頻率放電,亦可獲得波長254nm或185nm之水銀特有 之紫外光。藉如此構成’可獲得與第1實施例相同之效果。 空基座亦同樣地利用。 18 200901828 【第3實施例】 本發明第3實施例係設有放電燈、反射鏡、燈罩、扣晶 片、連接相鄰之燈單元之1對端子部、連接IC晶片與端子部 之通信線之燈單元。 5 第6圖係顯示在光源裝置排列本發明第;3實施例之燈之 狀態者。在第6圖中,燈單元205A、205C為用於投影型顯 不裝置等之燈單元。燈單元2〇5由燈1、反射燈之放射光, 作為平行光射出之反射鏡207、支撐反射鏡之燈罩2〇6、供 電線4、1C晶片20、凸狀端子30、凹狀端子31、通信線4〇構 10 成。 在光源裝置50,燈單元以單元保持部53保持。當將燈 單元嵌入單元保持部時,各燈單元之通信線藉由中繼端子 54,與端子台51電性連接。各燈單元之1(:晶片藉由通信線 及端子台,與讀取裝置電性連接。燈單元2〇5C為插入至光 15源裝置之單元保持部前之狀態。燈單元205A為插入保持於 光源裝置之單元保持部之狀態。 空單元215為不具有燈及供電線,僅以燈罩構成之單 元。在光源裝置中,藉於未亮燈之單元之部份安裝空單元, 可,、第1 Λ施例同樣地,連接通信線,光源裝置可以1〇晶片 20探測已安裝空單元。在光源裝置中,空單元兼具作為不使 用之單元保持部之蓋之功用。單元保持部之蓋藉使用空單 元可防止照射面之光進入背面側,防止背面之冷卻風進 入'、、、射面側。燈1係短弧型超高壓放電燈。反射鏡2〇7為非 形成平行光者亦可。通信線可為並聯形式。由於其他之結 19 200901828 構與第1實施例相同,故省略說明。說明了投影型顯示裝置 之例,投影型顯示裝置以外亦可適用。此外,保持機構之 「側面」不僅指四角柱(箱型)之基座之側面,亦包含圓柱狀 基座之圓周側面。 5 產業之可利用性 本發明之放電燈可以1C晶片管理複數放電燈之資訊, 最適合作為用於防止不適合燈之亮燈之光源裝置。在本發 明之放電燈使用之具1C晶片之基座亦可適用於使放電燈以 外之複數個燈點亮之情形。 10 c圖式簡單說明】 第1(a)圖〜第1(d)圖係顯示本發明第1實施例之放電燈 者。 第2(a)圖〜第2(b)圖係顯示於光源裝置排列安裝複數個 本發明第1實施例之放電燈之狀態者。 15 第3圖係說明在光源裝置讀寫設置於本發明第1實施例 之放電燈之1C晶片之動作者。 第4(a)圖〜第4(b)圖係顯示於光源裝置排列安裝本發明 第1實施例之放電燈之狀態之變形例者。 第5圖係顯示於光源裝置排列安裝本發明第2實施例之 20 放電燈之狀態者。 第6圖係顯示於光源裝置排列安裝本發明第3實施例之 燈單元之狀態者。 第7(a)圖〜第7(e)圖係顯示習知之放電燈或光源裝置之 概念圖。 2〇 200901828 【主要元件符號說明】 1."燈 30a...凸狀端子 1A...燈 30b...凸狀端子 1B··.燈 30c...凸狀端子 1C...燈 30Aa...凸狀端子 2...發光管 30Ab...凸狀端子 4...供電線 30Ac...凸狀端子 5…基座 30Ba...凸狀端子 7...基座上面 30Bb...凸狀端子 9...上游側基座側面 30Bc...凸狀端子 10...下游側基座側面 30Ca...凸狀端子 11...上游侧凹部 30Cb...凸狀端子 12...下游測凹部 30Cc...凸狀端子 15".空基座 31··.凹狀端子 20...1C 晶片 3 la.·.凹狀端子 20A...IC 晶片 3 lb...凹狀端子 20B...IC 晶片 31Sa...凹狀端子 20C...IC 晶片 31Sb...凹狀端子 20D...IC 晶片 31Sc...凹狀端子 30...凸狀端子 31Aa...凹狀端子 30D...端子部 31Ab...凹狀端子 21 200901828 31Ba...凹狀端子 31Bb...凹狀端子 31Ca...凹狀端子 31Cb...凹狀端子 31D...端子部 36.. .外側電極 40a…第1通信線 40b…第1通信線 40c.··第2通信線 40D…通信線 50…光源裝置 51.. .端子台 53.. .單元保持部 54.. .中繼端子 105…基座 106…前端側基座 107.. .内側管 108.. .外側管 205.. .燈單元 205A...燈單元 205C...燈單元 206.. .燈罩 207…反射鏡 215.. .空單元 225 There is a read/write mechanism for electrically connecting the terminal of the discharge lamp to the IC chip of each discharge lamp. The light source device includes an empty base for electrically connecting the κ:wafer of each discharge lamp to the terminal portion of the discharge lamp 1 of the arrangement end, and has the opposite side and electrically connected to each other. The terminal portion 'connects the communication line of the terminal portion, records information indicating that it is empty, and 10 is connected to the 1C wafer of the terminal portion. 15 20 The lamp unit comprises a discharge lamp and a reflector for reflecting the emitted light from the discharge lamp. The lamp n of the gift mirror is supplied to the power supply line of the discharge lamp; the light is disposed on the opposite side and electrically connected to each other. a terminal portion; a communication line connecting the terminal portion; and information for holding the lamp information, sending the history information, and the information of the light lining, and connecting to the ICU of the terminal portion. The terminal portion and the adjacent terminal portion The terminal of the lamp unit is connected and disposed on the opposite side, and the communication line connects the terminal to the 1C chip. The plurality of pet units are arranged and arranged to make the light-emitting device include The terminal portion of the _ terminal lamp unit is electrically connected to the redundancy of each lamp unit: the read/write mechanism of the lamp unit; the relay terminal of each terminal portion connecting the adjacent material elements is the lamp unit 1 (: wafer electrical property) Connected to the arranging end lamp unit, the mutual thunderbolt is 70. The empty unit has a terminal portion which is arranged on the opposite side and is connected, and the inspection line of the «description part, and the record 9 200901828 is displayed and the information is displayed and connected. In the aforementioned terminal portion 1C chip. Advantageous Effects of Invention According to the above configuration, when the plurality of lamps are arranged in parallel to be lit, the lamp information can be reliably managed by the 1C chip at a low cost. Only the lamps can be installed, 5 by the communication line The 1C chip is connected to the light source device. Since the communication line is replaced with a new one at the same time as the lamp is replaced, the reliability is not lowered by the communication line which is deteriorated by using it for a long time at a high temperature. FIG. 1(a) 1(d) is a view showing a discharge lamp 10 according to a first embodiment of the present invention. Figs. 2(a) to 2(b) are diagrams showing the arrangement of a plurality of light source devices in a first embodiment of the present invention. The state of the discharge lamp. Fig. 3 is a diagram showing the actor who reads and writes the 1C wafer of the discharge lamp of the first embodiment of the present invention in the light source device. 15 Brother 4(a) to 4(b) A modification of the state in which the discharge lamp of the first embodiment of the present invention is mounted on the light source device is shown in Fig. 5. Fig. 5 is a view showing a state in which the discharge lamp of the second embodiment of the present invention is mounted on the light source device. The light source device is arranged and installed in the state of the (20) lamp unit of the third embodiment. 7(a) to 7(e) are conceptual diagrams showing a conventional discharge lamp or light source device. [Embodiment] Best Mode for Carrying Out the Invention 10 200901828 Hereinafter, reference is made to Figs. 1 to 6 BRIEF DESCRIPTION OF THE DRAWINGS [First Embodiment] A first embodiment of the present invention is characterized in that a pedestal is provided with a concave 5 convex terminal connecting adjacent pedestals, and a connection concave-convex shape is provided. A communication line for a terminal, and a low-pressure mercury discharge lamp connected to a 1C chip of an uneven terminal. Fig. 1 is a view showing a low-pressure mercury discharge lamp according to a first embodiment of the present invention. Fig. 1(a) is a top view of a low-pressure mercury discharge lamp. The figure is the opposite side to the surface to be illuminated. Fig. 1(b) is a left side view of the low pressure mercury discharge lamp. The l(c) diagram is the right side view of the mercury discharge lamp. The first (d) diagram is a front view of the low-pressure mercury discharge lamp, which is the surface of the light-emitting management side of the low-pressure mercury discharge lamp. In the first (a) to the first (d), the lamp 1 is a low-pressure mercury discharge lamp. The arc tube 2 is a tube which is bent in a U shape and is a portion which emits light inside. The susceptor 5 is a portion of the light source device that holds the light-emitting tube. The power supply line 4 supplies electric power to the conductive 15 line of the lamp 1. The power supply line 4 is connected to an electrode (not shown) inside the arc tube 2. The top surface 7 of the susceptor is the surface of the pedestal on the side opposite to the illuminating surface. The side surface 9 of the upstream side base is the surface on the left side of the base. The side surface of the downstream side base 1 is the surface on the right side of the base. The upstream side recessed portion 11 is a recessed portion provided on the side surface of the upstream side base. The downstream side recessed portion 12 is a recessed portion provided on the side surface of the downstream side base. The 20 1C wafer 20 is a powerless 1C wafer that holds information about the discharge lamp and information about the conveyance. The male terminals 30a, 30b, and 30c are terminal portions on the convex side of the pair of terminals that are electrically connected to the concave and convex portions of the communication line. The female terminals 31a and 31b are terminal portions on the concave side of the pair of terminals to which the concave and convex portions of the communication line are electrically connected. The male terminal and the female terminal are collectively referred to as an uneven terminal 11 200901828 or a terminal portion. The communication line 40a is an electrically conductive line that electrically connects the convex terminal 3A of the upstream side base side and the concave terminal 31a of the downstream side base side. The communication line 40b is an electrically conductive wire that electrically connects the convex terminal 3 〇b on the side of the upstream side base and the concave terminal 31b on the side of the downstream side base. The communication line 4〇c is a conductive line for electrically connecting the convex terminal 30c on the side of the upstream measuring base to the 1C wafer 20. Fig. 2 is a view showing a state in which a low-pressure mercury discharge lamp is arranged and mounted on a light source device. In Fig. 2, the terminal block 51 is a terminal block for electrically connecting the convex terminals 3A, 30b, 30c of the lamp 1A and the ic wafer reading device (not shown) of the light source device. The empty pedestal 15 is a susceptor having only a 1C chip, a terminal portion, and a communication line. Fig. 3 is a diagram showing the reading and writing of an IC chip provided in each lamp of the light source device. Fig. 4 is a view showing a modification of a light source device in which a plurality of lamps are arranged. The figure shown in Fig. 4 is one communication line, and one convex terminal and concave terminal are attached to each of the lamps. 15 The function and operation of the low-pressure mercury discharge lamp of the first embodiment of the present invention constructed as above will be explained. First, an outline of the function of the low-pressure mercury discharge lamp will be described with reference to the drawings. The arc tube 2 is the same as the conventional discharge lamp. The susceptor 5 is arranged with a plurality of lamps 1 attached to the light source device. Terminal portions provided at the bottoms of the recesses (upstream 2 〇 side recessed portion 11 and downstream side recessed portion 12) of the opposite side surfaces (upstream side pedestal side surface 9 and downstream side pedestal side surface 丨〇) of the susceptor 5 (the male terminal 30, The female terminals 31) are electrically connected to each other by a communication line 4A. The pair of terminal portions (the male terminal 30a and the female terminal 31a, the male terminal and the female terminal 3 are connected to the terminal portion of the adjacent base 5 in a state of being connected to the opposite side surface. The convex terminal 30a, 30b is connected to the pair of the 12th communication line 4〇a, 4〇b at the inclined position. The recessed terminal Ma, 31WC of the wafer terminal 2 is connected to the side surface 9 provided on the upstream side by the second communication line. The bump terminals 3 of the unpaired terminal portions are the same. When the susceptors 5 of the lamp 1 are connected to the susceptors 5, they are individually connected to the terminal portions of the pedestal 5 of the arranging ends. When the read/write mechanism 5 is connected, the lamp can be read and written individually for the 1C chip 20. After the completion of the lighting process, the necessary information can be written to the 1C wafer 2 at any time. Information has light information, round information, open afL, and redundant light. Below, the information is explained. The light information is composed of individual information and device setting information. The individual information of the lamp is the date of manufacture, 10 Manufacturer's name, manufacturing office 'manufacturing line, lamp type, type number' batch number Identification number, etc. The device setting information is the rated lamp current, the rated lamp voltage, the cooling condition, the installation direction of the device, the use limit time, etc. The lighting information is the lighting start time, the light-off time, the re-lighting time, and the lighting condition. , lighting configuration, number of lighting and extinguishing, cumulative lighting time, device individual number, installation setting, device error information, use prohibition information, etc. Here, the lighting configuration is displayed in the arrangement of the plurality of lights. Information. This information can be used not only for the management of the lamp usage, but also for the investigation of the cause of the abnormality of the lamp. Next, the light source device 20 in which a plurality of lamps are arranged and arranged will be described with reference to Fig. 2. The terminal block 51 is explained. The lamp 1A, the lamp 1B, and the lamp 1C are adjacent to each other on the side of the base 5. The concave terminal 31Sa of the terminal block 51 is electrically connected to the convex terminal 30Aa of the lamp 1A. The concave terminal 31Sb of the terminal block 51 and the lamp 1A are The convex terminal 3〇Ab is electrically connected. The concave terminal 31Sc of the terminal block 51 is electrically connected to the convex terminal 3〇Ac of the lamp 1A. The concave terminal 31Aa of the lamp 1A and the convex terminal 3〇Bb 13 of the lamp 1B are electrically connected. 200901828 Electrical The concave terminal 31Ab of the lamp 1A is electrically connected to the convex terminal 3〇Bc of the lamp 1B. The convex terminal 30Ba of the lamp 1B is not connected to any element. The concave terminal 31Bb of the lamp (1) and the convex terminal 30Cb of the lamp 1C are connected. Electrically connected, the concave terminal 31Ba of the lamp lc is electrically connected to the convex terminal 30Cc of the lamp 1C. The convex 5-terminal 30Ca, the concave terminal 31Ca, and the concave terminal 31Cb of the lamp lc are not connected to any element. The lamp 1 and the concave terminal 3iSa of the terminal block 51 are electrically connected to the 1C wafer 20 of the lamp lc. The concave terminal 31 of the terminal block n is electrically connected to the lamp 1C wafer 20B, and the concave terminal 31Sc of the terminal block 51 is electrically connected. It is electrically connected with the lamp 8A 1C wafer 20A. With this configuration, the reading and writing device of the light source device 10 can read the information of the memory recorded on the 1C wafer 20 of each of the lamps 1. The terminal portion may be configured to remove one lamp from the light source device. Figure 2(b) shows the example when inserting an empty base. By unloading a part of the discharge lamp, the empty base 15 is installed, and the light can be reduced and used. The empty pedestal 15 has only the ic wafer 200, the terminal portion 3A, and the communication portion 40D. The pedestals 5 on both sides are connected by a communication line 40D of the empty pedestal 15. 15 shows the information of the empty base on the 1C wafer 20D. Next, a method of reading and writing a 1C chip will be described with reference to FIG. The information on the IC chip 20 is recorded or the information is turned on. Under the control of the system unit of the light source device, the reader/writer device reads the lamp information or the lighting information for each of the 1C chips 2GA, 2GB, and 2GC of the lamp, 1B, and 1C via the terminal block 51 and the communication line 40. The communication method between the 1c chip 20 and the reader/writer device may be a USB connection or a SCSI connection used in a peripheral device such as a computer. It can also be used as a 1C card authentication technology for financial cards. It can also be a simpler way of communication. The system unit of the light source device compares the information of the memory device with the information read from the busy chip 2 to determine whether or not the lamp is turned on or not. Depending on the result, the light source device 200901828 is shown as not lighting or automatically turning the light on. A method of reading and writing a 1C wafer from the time of manufacturing the lamp to the end of use. When the lamp is manufactured, the lamp information is written on the 1C chip. When the lamp is mounted on the light source device, before the light source device lights up the lamp, the lamp information and the lighting information written to the 1C chip are read, and the determination of whether or not the light can be turned on is performed, and the display or operation shown below is performed. When the 1C chip cannot be recognized or according to the lamp information, the light source device issues a warning when it is not suitable for the light source type of the light source device. The light source device not only warns the operator but also forces the lamp to be unusable. In the plurality of lamps of the light source device, power is not supplied to the lamp at a position where the 1C wafer cannot be recognized. 10 When the type of lamp is not suitable for the light source device, no power is supplied. Lights that are judged to be other light-emitting positions. For example, when only three lamps are installed in the four-lamp type light source device, power is not supplied to the position of the fourth lamp. During the use of the lamp, the following lighting information is written in the light source device. When the light is turned on, the lighting start time and lighting time are written to the 15 1C chip. After the lighting is turned on at the specified time, the lighting time and lighting conditions are written to the 1C chip. Furthermore, when the lighting time is above the life of the lamp, the operator is warned or forced to turn off the light. When the lamp is turned off, the lighting time and the light-off time are written to the 1C wafer. When the system unit of the light source device determines that the lighting state of the lamp is abnormal, after forcibly turning off the lamp, the abnormal state and the occurrence of the recording are written as the lighting information to the 1C wafer. The abnormal status is recorded with an error code or the like. When the lamp that is no longer able to illuminate is abnormal, the prohibited lighting information is written to the 1C chip. When the lamp is turned on again, before the light source device lights the lamp, the lamp information or the lighting information written to the 1C chip is read, and the determination as to whether or not the lamp can be lit is performed. Therefore, when the lamp is replaced in the middle of the service life, the light is used. 15 200901828 The use history of the door and the like is still used as a redundant chip recorded on the lamp body, so that the lamp life can be managed according to each lamp. When the lamp reaches the specified life, the IC chip is written to the specified life, and the lamp is used for the τ. When the system of the light source device determines that it is an abnormal light, 5 the lamp of the lamp can not be redundant, and the lighting information of the prohibited use is written on the buckle chip. The lamp of the 1C chip having the use information for writing the prohibition of use can be prevented from being turned on due to the judgment of the lighting of the system of the light source device, thereby preventing the error and the party lamp. Further, in the light source device, the lamp information can be read from the buckle wafer and recorded as a stop lamp in the memory device. When the 1C chip for 10 is used for recycling, it is possible to grasp the use of the lamp from the lighting information of the chip (1), which contributes to the future lamp quality management. Also, when the lamp is stopped and the lighting is stopped, It is helpful for the investigation of the cause. With the above configuration, the lamp information can be managed, and the accident caused by the use of the lamp not suitable for the light source device can be prevented. Moreover, since the terminal portion is provided on the bottom surface of the concave portion 15 on the side of the lamp base, It can be used in the conventional light source device that does not manage the lamp information. In addition, it can be flexibly adapted to the number of uses. When the multiple lamps are arranged, the wiring of the communication line between the lamp and the light source device can be simplified. The lamp can be connected to the communication line, so the replacement of the lamp is simple. Since the communication line is replaced with a new one at the same time as the lamp is replaced, the reliability of use in the high temperature range for a long time is not lowered. The concave terminal is fitted and the communication line is electrically connected. The terminal portion is not limited thereto, and a suitable connector may be used. A plurality of communication lines may be bundled as one group, and one connector is used as a terminal. In addition, the communication line may not be a wire, and it is a conductive foil or film. The discharge lamp is 3 16 200901828, and the communication line is also 3. By using 4 or more communication lines, 4 pieces can be managed. The above discharge lamp. Next, an example in which one communication line is used will be described. Fig. 4 shows a state in which a plurality of states of the light source device are arranged and arranged. The communication bulletin is a series of 5 credits, and each of the discharge lamps is set to 1 The convex terminal and the concave terminal are configured in such a manner that the communication line and the terminal portion of the base of the discharge lamp can be simplified. The method of serial communication can be applied by a well-known communication method. Fig. 4(b) shows In the case of arranging a plurality of lamps to make them light-free, even if some of the lamps are not lit, a sufficient amount of light can be irradiated, and the _ part is not When the lamp is turned on or the state of the lamp is removed, the light source device is used. The IC chip is connected to the reading device by the s-line of the lamp on the side of the reading device, so that it is not close to the reading device. When the lamp is mounted on the side, the redundant chip and the reading device are not connected. As shown in Fig. 4, the empty base 15 is installed in the mounting portion of the lamp without the lamp, and the lamp is arranged. 15 The empty base 15 does not have the light-emitting tube and the power supply line, and only has the 1C chip 200 and the terminal portion 30D. 31D, the base of the communication line 4〇D. The light on the downstream side is connected to the reading device by the overnight line provided on the empty base. The information of the empty base is recorded on the IC chip 2〇D s Therefore, the system portion of the light source device can detect that the empty base is mounted by the reading device. No power 20 or cooling medium is supplied at the place where the empty base is installed. Other actions are the same as in the above example. As described above, in the present invention In the embodiment, the embossed terminal connecting the adjacent pedestals, the communication line connecting the embossed terminals, and the 1 (: wafer) connected to the embossed terminal are provided on the pedestal of the low-pressure mercury discharge lamp, so that the structure can be simplified. And the reliability is good to manage the lamp information with 1C chip. 17 200901828 [Second Embodiment] A second embodiment of the present invention is characterized in that a susceptor lamp having a concave-convex terminal connecting adjacent pedestals, a communication line connecting the embossed terminals, and a 1C chip connected to the embossed terminal is provided on the susceptor. . Fig. 5 is a view showing a state in which the lamp of the second embodiment of the present invention is arranged in the state of the light source device. In Fig. 5, the lamps 1A, IB, and 1C are excimer lamps. There is a light-emitting portion which is formed by the coaxial cylindrical outer tube 108 and the inner tube 1〇7. An inner electrode (not shown) is provided on the inner surface of the inner tube 107. An outer side electrode (not shown) is provided on the outer surface of the outer tube 108. The susceptor 5 is used to hold the 10 illuminating tube at one end of the light source device. The front end side base 1 6 is for holding the light pipe at the other end of the light source device. The power supply line 4 is electrically connected to the inner electrode and the outer electrode ' to supply electric power to the line of the discharge lamp. Since the other configurations are the same as those of the first embodiment, the description thereof is omitted. The lighting action of the excimer lamp is as follows. The xenon gas is sealed inside the arc tube composed of the inner tube and the outer tube. A dielectric shield discharge is generated by applying a high frequency voltage of about 2 kHz between the inner electrode disposed on the inner surface of the inner tube and the outer electrode disposed outside the outer tube. The excimer light (wavelength 172 nm) generated at this time can penetrate the outer electrode 36 of the metal mesh and be efficiently taken out. It is also possible to enclose helium in the same configuration and to apply the voltage as a high frequency of several MHz. In this structure, excimer light (wavelength 172 nm) is also emitted. When the encapsulating material is mercury and argon gas for starting, high-frequency discharge of low-pressure mercury is performed, and ultraviolet light specific to mercury of 254 nm or 185 nm can also be obtained. By doing so, the same effects as those of the first embodiment can be obtained. The empty base is also used in the same manner. 18 200901828 [THIRD EMBODIMENT] A third embodiment of the present invention is provided with a discharge lamp, a mirror, a lamp cover, a buckle wafer, a pair of terminal portions connecting adjacent lamp units, and a communication line connecting the IC chip and the terminal portion. Light unit. 5 Fig. 6 shows the state in which the light source device is arranged in the state of the lamp of the third embodiment of the present invention. In Fig. 6, the lamp units 205A, 205C are lamp units for a projection type display device or the like. The lamp unit 2〇5 is emitted by the lamp 1, the reflector lamp, the mirror 207 as the parallel light, the lamp cover 2〇6 supporting the mirror, the power supply line 4, the 1C wafer 20, the convex terminal 30, and the concave terminal 31. The communication line 4 is configured to be 10%. In the light source device 50, the lamp unit is held by the unit holding portion 53. When the lamp unit is embedded in the unit holding portion, the communication line of each lamp unit is electrically connected to the terminal block 51 via the relay terminal 54. 1 of each lamp unit (the wafer is electrically connected to the reading device via a communication line and a terminal block. The lamp unit 2〇5C is in a state before being inserted into the unit holding portion of the source device of the light 15. The lamp unit 205A is inserted and held. In the state of the unit holding portion of the light source device, the empty unit 215 is a unit including only a lamp cover without a lamp and a power supply line. In the light source device, an empty unit is mounted by a portion of the unit that is not lit, In the first embodiment, the communication line is connected, and the light source device can detect the mounted empty unit by the wafer 20. In the light source device, the empty unit also functions as a cover for the unused unit holding portion. By using the empty unit, the light on the irradiation surface can be prevented from entering the back side, and the cooling air on the back side can be prevented from entering the ', and the emitting surface side. The lamp 1 is a short-arc type ultra-high pressure discharge lamp. The mirror 2〇7 is non-parallel light. The communication line may be in parallel. Since the other structure 19 200901828 is the same as that of the first embodiment, the description thereof is omitted. An example of the projection type display device is described, and the projection type display device may be applied. The "side" of the holding mechanism refers not only to the side of the base of the square column (box type) but also to the circumferential side of the cylindrical base. 5 Industrial Applicability The discharge lamp of the present invention can manage the information of a plurality of discharge lamps on a 1C wafer. It is most suitable as a light source device for preventing illumination that is not suitable for a lamp. The base of the 1C chip used in the discharge lamp of the present invention can also be applied to a case where a plurality of lamps other than the discharge lamp are turned on. BRIEF DESCRIPTION OF THE DRAWINGS FIGS. 1(a) to 1(d) are diagrams showing a discharge lamp according to a first embodiment of the present invention. FIGS. 2(a) to 2(b) are diagrams showing arrangement of light source devices. A plurality of states of the discharge lamp of the first embodiment of the present invention. Fig. 3 is a view showing the actor who reads and writes the 1C wafer of the discharge lamp of the first embodiment of the present invention in the light source device. Fig. 4(a) 4(b) shows a modification of the state in which the light source device is mounted with the discharge lamp of the first embodiment of the present invention. Fig. 5 is a view showing the arrangement of the 20th discharge lamp of the second embodiment of the present invention in the arrangement of the light source device. State of the art. Figure 6 shows the installation of the light source device The state of the lamp unit of the third embodiment is shown. Figures 7(a) to 7(e) show conceptual diagrams of a conventional discharge lamp or light source device. 2〇200901828 [Description of main component symbols] 1." Lamp 30a...convex terminal 1A...light 30b...convex terminal 1B··.light 30c...convex terminal 1C...light 30Aa...convex terminal 2...lighting Tube 30Ab...convex terminal 4...power supply line 30Ac...convex terminal 5...base 30Ba...convex terminal 7...base upper surface 30Bb...convex terminal 9... Upstream side base side surface 30Bc... convex terminal 10... downstream side base side surface 30Ca... convex terminal 11... upstream side recessed portion 30Cb... convex terminal 12... downstream measurement recessed portion 30Cc ... convex terminal 15" empty base 31·. concave terminal 20...1C wafer 3 la.. concave terminal 20A...IC wafer 3 lb... concave terminal 20B.. .IC chip 31Sa...recessed terminal 20C...IC chip 31Sb...recessed terminal 20D...IC chip 31Sc...recessed terminal 30...convex terminal 31Aa...concave terminal 30D... terminal portion 31Ab... concave terminal 21 200901828 31Ba... concave terminal 31Bb... concave terminal 31Ca... concave terminal 31Cb... Terminal 31D...terminal portion 36.. outer electrode 40a...first communication line 40b...first communication line 40c.·second communication line 40D...communication line 50...light source device 51.. terminal block 53. .. unit holding portion 54.. relay terminal 105... base 106... front end side base 107.. inner tube 108.. outer tube 205.. lamp unit 205A... lamp unit 205C... Lamp unit 206.. lamp cover 207... mirror 215.. empty unit 22