JP3877515B2 - Mobile phone - Google Patents

Description

【００２２】
着信の待機状態においては、後述の如く、バックライト(18a)及びキー照明装置(18b)が点灯／消灯されると共に、ディスプレイ(15)の表示動作がオン／オフされる。
ケース No. １
周囲が明るい状態でキー入力操作が行なわれた場合には、第１光センサ(３)及び第２光センサ(30)に周囲の光が入射しているため、第１及び第２光センサ(３)(30)の出力値は、周囲が暗い場合に比べて大きくなる。
この場合、キー入力操作により入力された情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要はあるが、周囲が明るいため、ディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要はない。
そこで、第１光センサ(３)及び第２光センサ(30)の出力値が共に、所定の基準値よりも大きいときに、バックライト(18a)及びキー照明装置(18b)が消灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００２３】
ケース No. ２
周囲は暗いが何らかの光源の光が装置本体の背面に向けて局所的に照射されている状態でキー入力操作が行なわれた場合、例えば、周囲は暗いが、ユーザの正面からユーザに向けて光が照射されており、装置本体がその前面をユーザに向けて所持されている状態でキー入力操作が行なわれた場合には、第２光センサ(30)には光源の光の大部分が入射しているが、第１光センサ(３)には光源の光が殆ど入射していないため、第２光センサ(30)の出力値は第１光センサ(３)の出力値に比べて大きくなる。
この場合、キー入力操作により入力された情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要がある。又、装置本体の前面側の周辺が暗いためディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要がある。
そこで、第１光センサ(３)の出力値は前記基準値よりも小さいが、第２光センサ(30)の出力値は前記基準値よりも大きく、第２光センサ(30)の出力値が第１光センサ(３)の出力値に比べて十分に大きいときに、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点から一定時間、例えば１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００２４】
ケース No. ３
周囲は暗いが何らかの光源の光が装置本体の前面に向けて局所的に照射されている状態でキー入力操作が行なわれた場合、例えば、周囲は暗いが、ユーザの背面からユーザに向けて光が照射されており、装置本体がその前面をユーザに向けて所持されている状態でキー入力操作が行なわれた場合には、第１光センサ(３)には光源の光の大部分が入射しているが、第２光センサ(30)には光源の光が殆ど入射していないため、第１光センサ(３)の出力値は第２光センサ(30)の出力値に比べて大きくなる。
又、周囲が明るい状態で装置本体の前面を上方に向けてキー入力操作が行なわれた場合においても、第１光センサ(３)には周囲の光が入射しているが、第２光センサ(30)には周囲の光が殆ど入射していないため、第１光センサ(３)の出力値は第２光センサ(30)の出力値に比べて大きくなる。
上記何れの場合においても、キー入力操作により入力された情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要がある。又、周囲は暗いがユーザの背面からユーザに向けて光が照射されている状態でキー入力操作が行なわれた場合、装置本体の前面に光が照射されているため、ディスプレイ(15)の表示を見易くすると共にキー入力装置(14)を操作し易くするという観点からはディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要はないが、周囲が暗くユーザの背面からユーザに向けて光が照射されている状態はユーザが何らかの動作を行なう上で危険であるという観点からディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要がある。
そこで、第１光センサ(３)の出力値は前記基準値よりも大きいが、第２光センサ(30)の出力値は前記基準値よりも小さく、第１光センサ(３)の出力値が第２光センサ(30)の出力値よりも十分に大きいときには、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点から１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００２５】
ケース No. ４
周囲が暗く、装置本体に何ら光源の光が照射されていない状態でキー入力操作が行なわれた場合には、第１光センサ(３)及び第２光センサ(30)には殆ど光が入射していないため、第１及び第２光センサ(３)(30)の出力値は、周囲が明るい場合に比べて小さくなる。
この場合、キー入力操作により入力された情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要がある。又、周囲が暗いため、ディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要がある。
そこで、第１光センサ(３)及び第２光センサ(30)の出力値が共に基準値よりも小さいときに、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点から１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００２６】
ケース No. ５
周囲が明るい状態で着信があった場合には、第１光センサ(３)及び第２光センサ(30)に周囲の光が入射しているため、第１及び第２光センサ(３)(30)の出力値は、周囲が暗い場合に比べて大きくなる。
この場合、発信者の電話番号等の情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要はあるが、周囲が明るいため、ディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要はない。
そこで、第１光センサ(３)及び第２光センサ(30)の出力値が共に、所定の基準値よりも大きいときに、バックライト(18a)及びキー照明装置(18b)が消灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００２７】
ケース No. ６
周囲は暗いが何らかの光源の光が装置本体の背面に向けて局所的に照射されている状態で着信があった場合、例えば、周囲は暗いが、ユーザの正面からユーザに向けて光が照射されており、装置本体がその前面をユーザに向けて所持されている状態で着信があった場合には、第２光センサ(30)には光源の光の大部分が入射しているが、第１光センサ(３)には光源の光が殆ど入射していないため、第２光センサ(30)の出力値は第１光センサ(３)の出力値に比べて大きくなる。
又、周囲が明るく、装置本体がその前面を下方に向けた姿勢で机上に置かれた状態で着信があった場合においても、第２光センサ(30)には周囲の光が入射しているが第１光センサ(３)には周囲の光が殆ど入射していないため、第２光センサ(30)の出力値は第１光センサ(３)の出力値に比べて大きくなる。
上記何れの場合においても、発信者の電話番号等の情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要がある。又、周囲は暗いがユーザの正面からユーザに向けて光が照射されている状態で着信があった場合には、装置本体の前面側の周辺が暗いため、ディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要がある。
そこで、第１光センサ(３)の出力値は前記基準値よりも小さいが、第２光センサ(30)の出力値は前記基準値よりも大きく、第２光センサ(30)の出力値が第１光センサ(３)の出力値よりも十分に大きいときには、バックライト(18a)及びキー照明装置(18b)が着信時から１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００２８】
ケース No. ７
周囲は暗いが何らかの光源の光が装置本体の前面に向けて局所的に照射されている状態で着信があった場合、例えば、周囲は暗いが、ユーザの背面からユーザに向けて光が照射されており、装置本体がその前面をユーザに向けて所持されている状態で着信があった場合には、第１光センサ(３)には光源の光の大部分が入射しているが、第２光センサ(30)には光源の光が殆ど入射していないため、第１光センサ(３)の出力値は第２光センサ(30)の出力値に比べて大きくなる。
又、周囲は明るく、装置本体がその前面を上方に向けた姿勢で机上に置かれた状態で着信があった場合においても、第１光センサ(３)には周囲の光が入射しているが、第２光センサ(30)には周囲の光が殆ど入射していないため、第１光センサ(３)の出力値は第２光センサ(30)の出力値に比べて大きくなる。
上記何れの場合においても、発信者の電話番号等の情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要がある。又、上記ケースNo.３と同様に、周囲が暗くユーザの背面からユーザに向けて光が照射されている状態はユーザが何らかの動作を行なう上で危険であるという観点からディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要がある。
そこで、第１光センサ(３)の出力値は前記基準値よりも大きいが、第２光センサ(30)の出力値は前記基準値よりも小さく、第１光センサ(３)の出力値が第２光センサ(30)の出力値よりも十分に大きいときには、バックライト(18a)及びキー照明装置(18b)が着信時から１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００２９】
ケース No. ８
周囲が暗く、装置本体に何ら光源の光が照射されていない状態で着信があった場合には、第１光センサ(３)及び第２光センサ(30)には殆ど光が入射していないため、第１及び第２光センサ(３)(30)の出力値は、周囲が明るい場合に比べて小さくなる。
この場合、発信者の電話番号等の情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要がある。又、周囲が暗いため、ディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要がある。
そこで、第１光センサ(３)及び第２光センサ(30)の出力値が共に基準値よりも小さいときに、バックライト(18a)及びキー照明装置(18b)が着信時から１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００３０】
又、他の電話機との通信が確立している通信確立状態においては、後述の如く、バックライト(18a)及びキー照明装置(18b)が点灯／消灯されると共に、ディスプレイ(15)の表示動作がオン／オフされる。
ケース No. ９
周囲が明るい状態でキー入力操作が行なわれた場合には、上記ケースNo.１と同様に、第１光センサ(３)及び第２光センサ(30)の出力値が共に、所定の基準値よりも大きいときに、バックライト(18a)及びキー照明装置(18b)が消灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００３１】
ケース No. １０
周囲は暗いが何らかの光源の光が装置本体の背面に向けて局所的に照射されている状態でキー入力操作が行なわれた場合、例えば、周囲は暗いが、ユーザの正面からユーザに向けて光が照射されており、装置本体がその前面をユーザに向けて所持されている状態でキー入力操作が行なわれた場合には、上記ケースNo.２と同様に、第１光センサ(３)の出力値は前記基準値よりも小さいが、第２光センサ(30)の出力値は前記基準値よりも大きく、第２光センサ(30)の出力値が第１光センサ(３)の出力値に比べて十分に大きいときに、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点から１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００３２】
ケース No. １１
周囲は暗いが何らかの光源の光が装置本体の前面に向けて局所的に照射されている状態でキー入力操作が行なわれた場合、例えば、周囲は暗いが、ユーザの背面からユーザに向けて光が照射されており、装置本体がその前面をユーザに向けて所持されている状態でキー入力操作が行なわれた場合、或いは、周囲が明るい状態で装置本体の前面を上方に向けてキー入力操作が行なわれた場合には、上記ケースNo.３と同様に、第１光センサ(３)の出力値は前記基準値よりも大きいが、第２光センサ(30)の出力値は前記基準値よりも小さく、第１光センサ(３)の出力値が第２光センサ(30)の出力値よりも十分に大きいときに、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点から１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００３３】
ケース No. １２
周囲が暗く、装置本体に何ら光源の光が照射されていない状態でキー入力操作が行なわれた場合には、上記ケースNo.４と同様に、第１光センサ(３)及び第２光センサ(30)の出力値が共に基準値よりも小さいときに、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点から１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００３４】
ケース No. １３
周囲が明るい状態で、キー入力操作が無く、通話も行なわれていない場合、例えば、周囲が明るい状態で装置本体がユーザの手元で所持されている場合には、第１光センサ(３)及び第２光センサ(30)に周囲の光が入射しているため、第１及び第２光センサ(３)(30)の出力値は、周囲が暗い場合に比べて大きくなる。
この場合、他の電話機と通信が確立されている状態である旨等の情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要はあるが、周囲が明るいため、ディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要はない。
そこで、第１光センサ(３)及び第２光センサ(30)の出力値が共に、所定の基準値よりも大きいときに、バックライト(18a)及びキー照明装置(18b)が消灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００３５】
ケース No. １４
周囲が明るい状態で、装置本体がユーザの耳元で所持されて通話が行なわれている場合には、周囲の光は、第２光センサ(30)に入射しているのに対し、第１光センサ(３)には、ユーザの耳により遮蔽されて入射していないため、第２光センサ(30)の出力値は第１光センサ(３)の出力値に比べて大きくなる。
又、周囲は明るく、装置本体がその前面を下方に向けた姿勢で机上に置かれた状態で、通話が行なわれている場合においても、第２光センサ(30)には周囲の光が入射しているが、第１光センサ(３)には周囲の光が殆ど入射していないため、第２光センサ(30)の出力値は第１光センサ(３)の出力値に比べて大きくなる。
上述の如く通話が行なわれている場合、ユーザがディスプレイ(15)の表示を見ることはないため、ディスプレイ(15)に情報を表示することは無駄であり、ディスプレイ(15)の表示動作をオンに設定する必要はない。又、周囲が明るいため、ディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要はない。
そこで、第１光センサ(３)の出力値は前記基準値よりも小さいが、第２光センサ(30)の出力値は前記基準値よりも大きく、第２光センサ(30)の出力値が第１光センサ(３)の出力値に比べて十分に大きいときに、バックライト(18a)及びキー照明装置(18b)が消灯され、ディスプレイ(15)の表示動作がオフに設定される。
【００３６】
ケース No. １５
周囲は暗いが何らかの光源の光が装置本体の前面に向けて局所的に照射されている状態でキー入力操作が無く、通話も行なわれていない場合、例えば、周囲は暗いが、ユーザの背面からユーザに向けて光が照射されており、装置本体がその前面をユーザに向けて所持されている状態でキー入力操作が無く、通話も行なわれていない場合には、第１光センサ(３)には光源の光の大部分が入射しているが、第２光センサ(30)には光源の光が殆ど入射していないため、第１光センサ(３)の出力値は第２光センサ(30)の出力値に比べて大きくなる。
又、周囲は明るく、装置本体がその前面を上方に向けた姿勢で机上に置かれた状態で、キー入力操作が無く、通話も行なわれていない場合においても、第１光センサ(３)には周囲の光が入射しているが、第２光センサ(30)には周囲の光が殆ど入射していないため、第１光センサ(３)の出力値は第２光センサ(30)の出力値に比べて大きくなる。
上記何れの場合においても、他の電話機と通信が確立されている状態である旨等の情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要がある。又、上記ケースNo.３と同様に、周囲が暗くユーザの背面からユーザに向けて光が照射されている状態はユーザが何らかの動作を行なう上で危険であるという観点からディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要がある。
そこで、第１光センサ(３)の出力値は前記基準値よりも大きいが、第２光センサ(30)の出力値は前記基準値よりも小さく、第１光センサ(３)の出力値が第２光センサ(30)の出力値よりも十分に大きいときに、第２光センサ(30)の出力値が前記基準値よりも小さくなった時点からバックライト(18a)及びキー照明装置(18b)が１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００３７】
ケース No. １６
周囲が暗い状態で、装置本体がユーザの耳元で所持されて通話が行なわれている場合には、第１光センサ(３)及び第２光センサ(30)に殆ど光が入射していないため、第１及び第２光センサ(３)(30)の出力値は、周囲が明るい場合に比べて小さくなる。
又、周囲が暗い状態で、キー入力操作が無く、通話も行なわれていない場合においても、第１光センサ(３)及び第２光センサ(30)に殆ど光が入射していないため、第１及び第２光センサ(３)(30)の出力値は、周囲が明るい場合に比べて小さくなる。
この様に、通話が行なわれている場合及び通話が行なわれていない場合の何れの場合においても、第１光センサ(３)及び第２光センサ(30)の出力値は共に、基準値よりも小さくなる。従って、第１及び第２光センサ(３)(30)の出力値が共に基準値よりも小さい場合であっても、ユーザはディスプレイ(15)の表示を見ることがあり、他の電話機と通信が確立されている状態である旨等の情報をディスプレイ(15)に表示するためにディスプレイ(15)の表示動作をオンに設定する必要がある。又、周囲が暗いため、ディスプレイ(15)の表示面及びキー入力装置(14)の複数の操作キーを照明する必要がある。
そこで、第１光センサ(３)及び第２光センサ(30)の出力値が共に基準値よりも小さいときに、第２光センサ(30)の出力値が前記基準値よりも小さくなった時点からバックライト(18a)及びキー照明装置(18b)が１０秒間だけ点灯され、ディスプレイ(15)の表示動作がオンに設定される。
【００３８】
図４乃至図６は、上記制御回路(10)によるバックライト(18a)及びキー照明装置(18b)の点灯／消灯、及びディスプレイ(15)の表示動作オン／オフの制御手続きを表わしている。
先ずステップＳ１では、電源がオンに設定されたか否かを判断し、ノー(Ｎｏ)の場合は、ステップＳ１にて同じ判断を繰り返し、イエス(Ｙｅｓ)の場合は、ステップＳ２に移行して、各ポートの設定等、必要な初期設定を行なう。この結果、装置本体は、着信の待機状態となる。
【００３９】
次にステップＳ３では、第１光センサ(３)及び第２光センサ(30)の出力値を取り込んだ後、ステップＳ４では、キー入力操作が行なわれたか否かを判断し、イエスの場合は、ステップＳ７に移行する。
一方、ステップＳ４にてノーと判断された場合は、ステップＳ５に移行して、着信があったか否かを判断し、ノーの場合はステップＳ３に戻り、イエスの場合はステップＳ６にて着信処理を行なった後、ステップＳ７に移行する。
【００４０】
ステップＳ７では、第１光センサ(３)の出力値が基準値よりも大きいか否かを判断し、イエスの場合はステップＳ８に移行して、第２光センサ(30)の出力値が基準値よりも大きいか否かを判断し、イエスの場合は、ステップＳ９に移行する。
又、ステップＳ８にてノーと判断された場合は、ステップＳ１０に移行して、第１光センサ(３)の出力値と第２光センサ(30)の出力値との差が所定値より大きいか否かを判断し、ノーの場合は、ステップＳ９に移行する。
ステップＳ９では、バックライト(18a)及びキー照明装置(18b)を消灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、図５のステップＳ１６に移行する。該ステップＳ９によって、上記表１のケースNo.１及び５において、バックライト(18a)及びキー照明装置(18b)が消灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００４１】
これに対し、ステップＳ１０にてイエスと判断された場合は、ステップＳ１１にて、バックライト(18a)及びキー照明装置(18b)を１０秒間だけ点灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、図５のステップＳ１６に移行する。該ステップＳ１１によって、上記表１のケースNo.３及び７において、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点、或いは着信時点から１０秒間だけ点灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００４２】
上記ステップＳ７にてノーと判断された場合は、ステップＳ１２に移行して、第２光センサ(30)の出力値が基準値より大きいか否かを判断し、ノーの場合は、ステップＳ１５に移行する。
又、ステップＳ１２にてイエスと判断された場合は、ステップＳ１３に移行して、第２光センサ(30)の出力値と第１光センサ(３)の出力値との差が所定値より大きいか否かを判断し、ノーの場合は、ステップＳ１５に移行する。
ステップＳ１５では、バックライト(18a)及びキー照明装置(18b)を１０秒間だけ点灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、図５のステップＳ１６に移行する。該ステップＳ１５によって、上記表１のケースNo.４及び８において、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点、或いは着信時点から１０秒間だけ点灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００４３】
これに対し、ステップＳ１３にてイエスと判断された場合は、ステップＳ１４にて、バックライト(18a)及びキー照明装置(18b)を１０秒間だけ点灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、図５のステップＳ１６に移行する。該ステップＳ１４によって上記表１のケースNo.２及び６において、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点、或いは着信時点から１０秒間だけ点灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００４４】
図５のステップＳ１６では、オフフックキーに対する操作があったか否かを判断し、ノーの場合はステップＳ１７に移行して、ユーザ操作に応じたキー入力処理を行なった後、図４のステップＳ５に戻る一方、イエスの場合はステップＳ１８に移行して、他の電話機との通信を確立するための通信確立処理を行なう。この結果、装置本体は、他の電話機との通信が確立した通信確立状態となる。
【００４５】
続いてステップＳ１９では、第１光センサ(３)及び第２光センサ(30)の出力値を取り込んだ後、ステップＳ２０では、キー入力操作が行なわれたか否かを判断し、ノーの場合は、ステップＳ２１に移行する。
【００４６】
ステップＳ２１では、第１光センサ(３)の出力値が基準値よりも大きいか否かを判断し、イエスの場合はステップＳ２２に移行して、第２光センサ(30)の出力値が基準値よりも大きいか否かを判断し、イエスの場合は、ステップＳ２３に移行する。
又、ステップＳ２２にてノーと判断された場合は、ステップＳ２４に移行して、第１光センサ(３)の出力値と第２光センサ(30)の出力値との差が所定値より大きいか否かを判断し、ノーの場合は、ステップＳ２３に移行する。
ステップＳ２３では、バックライト(18a)及びキー照明装置(18b)を消灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、ステップＳ１９に戻る。該ステップＳ２３によって、上記表１のケースNo.１３において、バックライト(18a)及びキー照明装置(18b)が消灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００４７】
これに対し、ステップＳ２４にてイエスと判断された場合は、ステップＳ２５に移行して、前回、第２光センサ(30)から取り込んだ出力値は基準値よりも大きかったか否かを判断し、ノーの場合はステップＳ１９に戻る一方、イエスの場合は、ステップＳ２６に移行して、バックライト(18a)及びキー照明装置(18b)を１０秒間だけ点灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、ステップＳ１９に戻る。該ステップＳ２６によって、ユーザ周辺の状況が上記表１のケースNo.１３或いは１４からケースNo.１５に変化したときに、バックライト(18a)及びキー照明装置(18b)がその時点から１０秒間だけ点灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００４８】
上記ステップＳ２１にてノーと判断された場合は、ステップＳ２７に移行して、第２光センサ(30)の出力値が基準値より大きいか否かを判断し、イエスの場合は、ステップＳ２８にて、第２光センサ(30)の出力値と第１光センサ(３)の出力値との差が所定値より大きいか否かを判断し、イエスの場合はステップＳ２９に移行する。
ステップＳ２９では、バックライト(18a)及びキー照明装置(18b)を消灯すると共に、ディスプレイ(15)の表示動作をオフに設定した後、ステップＳ１９に戻る。該ステップＳ２９によって、上記表１のケースNo.１４において、バックライト(18a)及びキー照明装置(18b)が消灯されると共に、ディスプレイ(15)の表示動作がオフに設定されることになる。
【００４９】
上記ステップＳ２７或いはステップＳ２８にてノーと判断された場合は、ステップＳ３０にて、前回、第２光センサ(30)から取り込んだ出力値は基準値よりも大きかったか否かを判断し、ノーの場合はステップＳ１９に戻る一方、イエスの場合は、ステップＳ３１に移行して、バックライト(18a)及びキー照明装置(18b)を１０秒間だけ点灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、ステップＳ１９に戻る。該ステップＳ３１によって、ユーザ周辺の状況が上記表１のケースNo.１３或いは１４からケースNo.１６に変化したときに、バックライト(18a)及びキー照明装置(18b)がその時点から１０秒間だけ点灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００５０】
上記ステップＳ２０にてイエスと判断された場合は、図６のステップＳ３２に移行して、第１光センサ(３)の出力値が基準値よりも大きいか否かを判断し、イエスの場合はステップＳ３３に移行して、第２光センサ(30)の出力値が基準値よりも大きいか否かを判断し、イエスの場合は、ステップＳ３４に移行する。
又、ステップＳ３３にてノーと判断された場合は、ステップＳ３５に移行して、第１光センサ(３)の出力値と第２光センサ(30)の出力値との差が所定値より大きいか否かを判断し、ノーの場合は、ステップＳ３４に移行する。
ステップＳ３４では、バックライト(18a)及びキー照明装置(18b)を消灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、ステップＳ４１に移行する。該ステップＳ３４によって、上記表１のケースNo.９において、バックライト(18a)及びキー照明装置(18b)が消灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００５１】
これに対し、ステップＳ３５にてイエスと判断された場合は、ステップＳ３６にて、バックライト(18a)及びキー照明装置(18b)を１０秒間だけ点灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、ステップＳ４１に移行する。該ステップＳ３６によって、上記表１のケースNo.１１において、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点から１０秒間だけ点灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００５２】
上記ステップＳ３２にてノーと判断された場合は、ステップＳ３７に移行して、第２光センサ(30)の出力値が基準値より大きいか否かを判断し、ノーの場合は、ステップＳ４０に移行する。
又、ステップＳ３７にてイエスと判断された場合は、ステップＳ３８に移行して、第２光センサ(30)の出力値と第１光センサ(３)の出力値との差が所定値より大きいか否かを判断し、ノーの場合は、ステップＳ４０に移行する。
ステップＳ４０では、バックライト(18a)及びキー照明装置(18b)を１０秒間だけ点灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、ステップＳ４１に移行する。該ステップＳ４０によって、上記表１のケースNo.１２において、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点から１０秒間だけ点灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００５３】
これに対し、ステップＳ３８にてイエスと判断された場合は、ステップＳ３９にて、バックライト(18a)及びキー照明装置(18b)を１０秒間だけ点灯すると共に、ディスプレイ(15)の表示動作をオンに設定した後、ステップＳ４１に移行する。該ステップＳ３９によって上記表１のケースNo.１０において、バックライト(18a)及びキー照明装置(18b)がキー入力操作時点から１０秒間だけ点灯されると共に、ディスプレイ(15)の表示動作がオンに設定されることになる。
【００５４】
ステップＳ４１では、前記キー入力操作がオンフックキーに対する操作であったか否かを判断し、ノーの場合は、図５のステップＳ１９に戻る。
一方、ステップＳ４１にてイエスと判断された場合は、ステップＳ４２にて、他の電話機との通信を切断するための通信切断処理を行なった後、図４のステップＳ３に戻る。この結果、装置本体は、通信確立状態から着信の待機状態となる。
【００５５】
上記携帯電話機によれば、周囲が暗く、何らかの光源の光がユーザの背面からユーザに向けて局所的に照射されている状況(上記表１のケースNo.３、７、１１及び１５)において、バックライト(18a)及びキー照明装置(18b)が点灯されるので、装置本体の周辺が若干、明るくなり、かかる状況でユーザが何らかの動作を行なう上での危険性が緩和される。
又、ディスプレイ(15)に情報を表示することが無駄な状況、即ち周囲が明るい状態で、装置本体がユーザの耳元で所持されて通話が行なわれている状況(上記表１のケースNo.１４)において、バックライト(18a)及びキー照明装置(18b)が消灯されると共にディスプレイ(15)の表示動作がオフに設定されるので、無駄な電力の消費が抑制され、電力の有効利用が図られることになる。
この様に、本発明に係る携帯電話機によれば、周囲の状況に応じて、バックライト(18a)及びキー照明装置(18b)を適切なタイミングで自動的に点灯及び消灯させると共に、ディスプレイ(15)の表示動作を適切なタイミングで自動的にオン／オフさせることが出来る。
【図面の簡単な説明】
【図１】本発明に係る携帯電話機を前面側から見た斜視図である。
【図２】上記携帯電話機を背面側から見た斜視図である。
【図３】上記携帯電話機の電気的な構成を表わすブロック図である。
【図４】上記携帯電話機における制御手続きを表わすフローチャートである。
【図５】図４の第１の分図を表わすフローチャートである。
【図６】図４の第２の分図を表わすフローチャートである。
【図７】従来の携帯電話機を前面側から見た斜視図である。
【符号の説明】
(１) ケーシング
(13) アンテナ
(14) キー入力装置
(15) ディスプレイ
(17) スピーカ
(18a) バックライト
(18b) キー照明装置
(19) マイクロホン
(３) 第１光センサ
(30) 第２光センサ[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile phone in which a transmitter and a receiver are provided on the front surface of a casing and a display surface of an information display device is provided.
[0002]
[Prior art]
As shown in FIG. 7, a conventional mobile phone has a flat casing (1) formed by combining a front case (11) and a rear case (12), and an antenna (13) is provided on the head of the casing (1). Projected.
On the surface of the front case (11), there are provided a key input device (14) and a display (15) comprising a plurality of operation keys, and an upper end and a lower end of the surface each have a built-in speaker. A part (2) and a transmission part (20) incorporating a microphone are provided.
[0003]
In addition, a light sensor (4) is provided on the surface of the front case (11) in the vicinity of the earpiece (2). The light sensor (4) provides brightness around the front side of the apparatus body. Is detected. The light sensor (4) is turned on when ambient light is incident, and is turned off when ambient light is not incident.
The mobile phone incorporates a backlight (not shown) for illuminating the display surface of the display (15), and the backlight is turned off when the photosensor (4) is on. Illuminated when the light sensor (4) is off.
Therefore, in a bright environment, ambient light is incident on the photosensor (4), the photosensor (4) is turned on, and the backlight is turned off. On the other hand, in a dark state, the ambient light hardly enters the photosensor (4), the photosensor (4) is turned off, and the backlight is turned on.
[0004]
[Problems to be solved by the invention]
However, in the conventional mobile phone, the lighting and extinguishing of the backlight are controlled based on the output signal of only the optical sensor (4) for detecting the brightness of the front side of the apparatus main body. Accordingly, there is a problem that the backlight cannot be turned on and off at an appropriate timing.
For example, even when the surroundings are dark, when light from any light source is locally irradiated toward the front of the apparatus body, for example, light from the light source is locally irradiated from the back of the user toward the user. If the light source is incident on the light sensor (4), the light sensor (4) is turned on, and the backlight is turned off. The situation where the light is locally irradiated toward the user is dangerous for the user to perform some operation.
Even when the surroundings are bright, during a call, ambient light is blocked by the user's ear and does not enter the optical sensor (4), and the optical sensor (4) is turned off and the backlight is turned on. However, in such a case, the surroundings are bright and the user does not see the display on the display (15) during a call, so there is no need to illuminate the display surface of the display (15). Thus, although the display surface of the display (15) does not need to be illuminated, the backlight is turned on and wasteful power is consumed.
SUMMARY OF THE INVENTION An object of the present invention is to provide a mobile phone that can automatically turn on and off a lighting device at an appropriate timing according to surrounding conditions.
[0005]
[Means for solving the problems]
  In the mobile phone according to the present invention, the transmitter and receiver are provided on the front surface of the casing, and the display surface of the information display device is provided.
  An illumination device for illuminating the display surface of the information display device;
  First light detection means arranged at a position capable of detecting the brightness around the front side of the apparatus body;
  Second light detection means arranged at a position capable of detecting the brightness around the back side of the apparatus body;
  Illumination control means for controlling lighting and extinction of the illumination device based on output signals of the first light detection means and the second light detection means
And has.The illumination control means includes
  Means for comparing the brightness detected by the first light detection means and the brightness detected by the second light detection means with a reference value in a communication established state;
  When the brightness detected by the first light detection unit is higher than the reference value in the communication established state, if the brightness detected by the second light detection unit is higher than the reference value, the lighting device is turned off. When the brightness detected by the second light detection means is low with a difference exceeding a predetermined value from the reference value, the previous detection value of the brightness detected by the second light detection means is higher than the reference value Only, means for starting the operation of lighting the lighting device for a certain time,
  When the brightness detected by the first light detection means is less than or equal to the reference value in the communication established state, if the brightness detected by the second light detection means is higher than the reference value with a difference exceeding a predetermined value, While the apparatus is turned off, when the brightness detected by the second light detection means is below the reference value, only when the previous detection value of the brightness detected by the second light detection means is higher than the reference value , Means for starting the operation of lighting the lighting device for a certain period of time
And has.
[0006]
In the mobile phone according to the present invention, for example, when light from a light source is locally irradiated toward the front of the apparatus main body in a dark state, the light from the light source is, for example, in a dark state. When the light is irradiated locally toward the user from the back of the light source, most of the light from the light source is incident on the first light detection means, whereas the light from the light source is hardly incident on the second light detection means. . Therefore, the amount of light incident on the first light detection means is larger than the amount of light incident on the second light detection means, and the brightness detected by the first light detection means is detected by the second light detection means. Higher than the brightness that is made.
Further, when a call is performed in a bright environment, ambient light is incident on the second light detection means, whereas the first light detection means is blocked by the user's ear and incident. do not do. Therefore, the amount of light incident on the first light detection means is smaller than that of the second light detection means, and the brightness detected by the first light detection means is compared with the brightness detected by the second detection means. Low.
Therefore, the lighting device is turned on and off based on the brightness detected by the first light detection means and the brightness detected by the second light detection means.
In this way, the lighting device is controlled to be turned on and off based not only on the brightness on the front side of the device body, but also on the back side of the device body. Depending on the surrounding circumstances, the light is turned on and off at appropriate timing.
[0011]
More specifically, display control means for controlling on / off of the display operation of the information display device based on output signals of the first light detection means and the second light detection means is provided.
[0012]
  If you are talking in a bright environmentSince the surroundings are bright and the user never sees the information display device during a call, it is useless to display information on the information display device. Here, the brightness detected by the first light detection means is lower than the brightness detected by the second light detection means.
  Therefore, on / off of the display operation of the information display device is controlled based on the brightness detected by the first light detection means and the brightness detected by the second light detection means.
[0013]
Furthermore, specifically, the display control means is configured to display the information display device when the brightness detected by the first light detection means is lower than the brightness detected by the second light detection means during a call. The display operation is turned off.
[0014]
As described above, when a call is performed in a bright environment, the brightness detected by the first light detection means is lower than the brightness detected by the second light detection means.
On the other hand, the brightness detected by the first light detection means and the second are detected both in the case where the call is performed in a dark state and in the case where the call is not performed in a dark state. The brightness detected by the light detection means is almost the same.
Therefore, if a configuration is adopted in which the display operation of the information display device is turned off even when the brightness detected by the first light detection means is the same as the brightness detected by the second light detection means, Even when the information is not performed, a situation occurs in which information is not displayed on the information display device.
Therefore, the display operation of the information display device is turned off only when the brightness detected by the first light detection means is lower than the brightness detected by the second light detection means.
As described above, when it is useless to display information on the information display device, by turning off the display operation of the information display device, useless power consumption can be suppressed and effective use of power can be achieved.
[0015]
【The invention's effect】
According to the mobile phone according to the present invention, the lighting device can be automatically turned on and off at an appropriate timing according to the surrounding situation.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.
The cellular phone according to the present invention comprises a flat casing (1) formed by combining a front case (11) and a rear case (12) as shown in FIGS. 1 and 2, and an antenna is mounted on the head of the casing (1). (13) is protruding.
On the surface of the front case (11), a key input device (14) composed of a plurality of operation keys is provided, and a display (15) is provided, and the display (15) includes a key input device (14). It is possible to display the information input by and various information. On the surface of the front case (11), a receiving part (2) with a built-in speaker is provided at the upper end, and a transmitting part (20) with a built-in microphone is provided at the lower end.
[0017]
The cellular phone according to the present invention includes a first optical sensor (3) and a second optical sensor (30). The first optical sensor (3) is provided on the surface of the front case (11) as shown in FIG. The second optical sensor (30) is arranged near the base end of the antenna (13) on the surface of the rear case (12), as shown in FIG. 2, while being arranged near the receiver (2). Yes. Accordingly, the brightness around the front side of the apparatus body is detected by the first optical sensor (3), and the brightness around the back side of the apparatus body is detected by the second optical sensor (30).
[0018]
FIG. 3 shows an electrical configuration of the mobile phone.
In the cellular phone, as shown in the figure, a telephone circuit (16) is connected to the antenna (13), and the telephone circuit (16) is connected to another cellular phone or to a subscriber telephone line. Signal processing for a telephone call and data communication with a general telephone is performed.
[0019]
The operation of the telephone circuit (16) is controlled by a control circuit (10) comprising a microcomputer, and a microphone (19) and a speaker (17) are connected to the control circuit (10) to input a transmission sound. And the reception sound can be output.
[0020]
The control circuit (10) is connected to the display (15) and the key input device (14) described above, and the backlight (18a) and the key input device for illuminating the display surface of the display (15). A key illumination device (18b) for illuminating the plurality of operation keys of (14) is connected.
The control circuit (10) is connected to the first optical sensor (3) and the second optical sensor (30), and the control circuit (10) includes the first optical sensor (3) and the second optical sensor. Based on the output signal of the sensor (30), the backlight (18a) and the key illumination device (18b) are turned on / off, and the display operation of the display (15) is turned on / off.
[0021]
Table 1 below shows the on / off state of the backlight (18a) and the key illumination device (18b) and the on / off state of the display operation of the display (15) in various situations. Note that the underlined portion in the table represents a state different from that of the conventional mobile phone.
[Table 1]

[0022]
In the waiting state for incoming calls, as will be described later, the backlight (18a) and the key illumination device (18b) are turned on / off, and the display operation of the display (15) is turned on / off.
Case No. 1
When the key input operation is performed in a bright environment, the ambient light is incident on the first optical sensor (3) and the second optical sensor (30), so the first and second optical sensors ( 3) The output value of (30) is larger than when the surroundings are dark.
In this case, it is necessary to turn on the display operation of the display (15) in order to display the information input by the key input operation on the display (15), but since the surroundings are bright, the display surface of the display (15) It is not necessary to illuminate the plurality of operation keys of the key input device (14).
Therefore, when the output values of the first light sensor (3) and the second light sensor (30) are both larger than a predetermined reference value, the backlight (18a) and the key illumination device (18b) are turned off, and the display The display operation of (15) is set to on.
[0023]
Case No. 2
When a key input operation is performed in a state where the surroundings are dark but the light of some light source is locally irradiated toward the back of the main body of the apparatus, for example, the surroundings are dark but the light is directed toward the user from the front of the user When the key input operation is performed with the main body of the device facing the user, the second light sensor (30) receives most of the light from the light source. However, since the light from the light source is hardly incident on the first optical sensor (3), the output value of the second optical sensor (30) is larger than the output value of the first optical sensor (3). Become.
In this case, in order to display the information input by the key input operation on the display (15), it is necessary to turn on the display operation of the display (15). Further, since the periphery on the front side of the apparatus main body is dark, it is necessary to illuminate the display surface of the display (15) and a plurality of operation keys of the key input device (14).
Therefore, the output value of the first photosensor (3) is smaller than the reference value, but the output value of the second photosensor (30) is larger than the reference value, and the output value of the second photosensor (30) is When the output value of the first light sensor (3) is sufficiently larger than the output value of the first light sensor (3), the backlight (18a) and the key illumination device (18b) are lit for a predetermined time, for example, 10 seconds from the time of the key input operation, and the display (15 ) Display operation is set to ON.
[0024]
Case No. 3
When a key input operation is performed in a state where the surroundings are dark but the light from some light source is locally radiated toward the front of the device body, for example, the surroundings are dark but the light is directed toward the user from the back of the user When the key input operation is performed with the main body of the apparatus facing the user, the first light sensor (3) receives most of the light from the light source. However, since the light from the light source is hardly incident on the second photosensor (30), the output value of the first photosensor (3) is larger than the output value of the second photosensor (30). Become.
In addition, even when a key input operation is performed with the front surface of the apparatus body facing upward in a bright environment, ambient light is incident on the first optical sensor (3), but the second optical sensor Since almost no ambient light is incident on (30), the output value of the first photosensor (3) is larger than the output value of the second photosensor (30).
In any of the above cases, it is necessary to turn on the display operation of the display (15) in order to display the information input by the key input operation on the display (15). In addition, if the key input operation is performed when light is emitted from the back of the user toward the user even though the surroundings are dark, the light on the front of the main body of the device is illuminated and the display on the display (15) It is not necessary to illuminate the display surface of the display (15) and the plurality of operation keys of the key input device (14) from the viewpoint of making the key input device (14) easy to operate while making it easy to see, but the surroundings are dark and the user Illuminates the display surface of the display (15) and a plurality of operation keys of the key input device (14) from the viewpoint that it is dangerous for the user to perform some operation when light is emitted from the back of the screen toward the user There is a need to.
Therefore, the output value of the first photosensor (3) is larger than the reference value, but the output value of the second photosensor (30) is smaller than the reference value, and the output value of the first photosensor (3) is When the output value of the second light sensor (30) is sufficiently larger than the output value of the second light sensor (30), the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds from the time of the key input operation, and the display operation of the display (15) is turned on. Set to
[0025]
Case No. 4
When a key input operation is performed when the surroundings are dark and no light from the light source is irradiated on the main body of the apparatus, almost no light is incident on the first optical sensor (3) and the second optical sensor (30). Therefore, the output values of the first and second photosensors (3) and (30) are smaller than when the surroundings are bright.
In this case, in order to display the information input by the key input operation on the display (15), it is necessary to turn on the display operation of the display (15). Further, since the surroundings are dark, it is necessary to illuminate the display surface of the display (15) and the plurality of operation keys of the key input device (14).
Therefore, when the output values of the first light sensor (3) and the second light sensor (30) are both smaller than the reference value, the backlight (18a) and the key illumination device (18b) are operated for 10 seconds from the time of the key input operation. Is turned on, and the display operation of the display (15) is turned on.
[0026]
Case No. 5
When there is an incoming call in a bright environment, the ambient light is incident on the first optical sensor (3) and the second optical sensor (30), so the first and second optical sensors (3) ( The output value of 30) is larger than when the surroundings are dark.
In this case, it is necessary to turn on the display operation of the display (15) in order to display information such as the caller's phone number on the display (15), but since the surroundings are bright, the display surface of the display (15) It is not necessary to illuminate the plurality of operation keys of the key input device (14).
Therefore, when the output values of the first light sensor (3) and the second light sensor (30) are both larger than a predetermined reference value, the backlight (18a) and the key illumination device (18b) are turned off, and the display The display operation of (15) is set to on.
[0027]
Case No. 6
When an incoming call is received in a state where the surroundings are dark but the light from some light source is locally irradiated toward the back of the main body of the device, for example, the surroundings are dark but the light is emitted from the front of the user toward the user. When the incoming call is received with the main body of the apparatus facing the user, most of the light from the light source is incident on the second optical sensor (30). Since almost no light from the light source is incident on the one optical sensor (3), the output value of the second optical sensor (30) is larger than the output value of the first optical sensor (3).
Also, even when there is an incoming call in a state where the surroundings are bright and the apparatus main body is placed on the desk with the front face facing downward, the ambient light is incident on the second optical sensor (30). However, since the ambient light hardly enters the first photosensor (3), the output value of the second photosensor (30) is larger than the output value of the first photosensor (3).
In any of the above cases, it is necessary to turn on the display operation of the display (15) in order to display information such as the telephone number of the caller on the display (15). In addition, when there is an incoming call when the surroundings are dark but light is radiated from the front of the user toward the user, the periphery on the front side of the main body of the device is dark. It is necessary to illuminate a plurality of operation keys of the input device (14).
Therefore, the output value of the first photosensor (3) is smaller than the reference value, but the output value of the second photosensor (30) is larger than the reference value, and the output value of the second photosensor (30) is When it is sufficiently larger than the output value of the first light sensor (3), the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds from the time of the incoming call, and the display operation of the display (15) is set to ON. Is done.
[0028]
Case No. 7
When an incoming call is received when light from a light source is locally radiated toward the front of the main unit, the surroundings are dark, but light is emitted from the back of the user toward the user. When the incoming call is received with the main body of the apparatus facing the user, most of the light from the light source is incident on the first optical sensor (3). Since almost no light from the light source is incident on the two-light sensor (30), the output value of the first light sensor (3) is larger than the output value of the second light sensor (30).
In addition, the ambient light is bright and the ambient light is incident on the first optical sensor (3) even when an incoming call is received with the apparatus body placed on the desk with the front face facing upward. However, since the ambient light hardly enters the second photosensor (30), the output value of the first photosensor (3) is larger than the output value of the second photosensor (30).
In any of the above cases, it is necessary to turn on the display operation of the display (15) in order to display information such as the telephone number of the caller on the display (15). Further, as in the case No. 3 above, the display (15) is displayed from the viewpoint that the state where the surroundings are dark and light is irradiated from the back of the user toward the user is dangerous for the user to perform some operation. It is necessary to illuminate a plurality of operation keys of the surface and the key input device (14).
Therefore, the output value of the first photosensor (3) is larger than the reference value, but the output value of the second photosensor (30) is smaller than the reference value, and the output value of the first photosensor (3) is When it is sufficiently larger than the output value of the second light sensor (30), the backlight (18a) and the key illumination device (18b) are lit for 10 seconds from the time of the incoming call, and the display operation of the display (15) is set to ON. Is done.
[0029]
Case No. 8
When there is an incoming call when the surroundings are dark and no light from the light source is irradiated on the device body, almost no light is incident on the first light sensor (3) and the second light sensor (30). Therefore, the output values of the first and second photosensors (3) and (30) are smaller than when the surroundings are bright.
In this case, it is necessary to turn on the display operation of the display (15) in order to display information such as the telephone number of the caller on the display (15). Further, since the surroundings are dark, it is necessary to illuminate the display surface of the display (15) and the plurality of operation keys of the key input device (14).
Therefore, when the output values of the first light sensor (3) and the second light sensor (30) are both smaller than the reference value, the backlight (18a) and the key illumination device (18b) are lit only for 10 seconds after the incoming call. The display operation of the display (15) is turned on.
[0030]
Moreover, in the communication establishment state in which communication with other telephones has been established, the backlight (18a) and the key illumination device (18b) are turned on / off and the display operation of the display (15) as described later. Is turned on / off.
Case No. 9
When the key input operation is performed in a bright environment, the output values of the first light sensor (3) and the second light sensor (30) are both predetermined reference values as in the case No. 1 above. Is larger than the backlight (18a) and the key illumination device (18b), the display operation of the display (15) is set to ON.
[0031]
Case No. 10
When a key input operation is performed in a state where the surroundings are dark but the light of some light source is locally irradiated toward the back of the main body of the apparatus, for example, the surroundings are dark but the light is directed toward the user from the front of the user When the key input operation is performed in a state where the main body of the apparatus is held with the front side facing the user, as in the case No. 2, the first optical sensor (3) Although the output value is smaller than the reference value, the output value of the second optical sensor (30) is larger than the reference value, and the output value of the second optical sensor (30) is the output value of the first optical sensor (3). The backlight (18a) and the key illumination device (18b) are lit for 10 seconds from the time of the key input operation, and the display operation of the display (15) is set to ON.
[0032]
Case No. 11
When a key input operation is performed in a state where the surroundings are dark but the light from some light source is locally radiated toward the front of the device body, for example, the surroundings are dark but the light is directed toward the user from the back of the user When the key input operation is performed in the state where the device body is held with the front surface facing the user, or the front surface of the device body is directed upward while the surroundings are bright. Is performed, the output value of the first photosensor (3) is larger than the reference value, but the output value of the second photosensor (30) is the reference value, as in the case No. 3 above. And when the output value of the first light sensor (3) is sufficiently larger than the output value of the second light sensor (30), the backlight (18a) and the key illumination device (18b) are at the time of key input operation. It is lit for 10 seconds from the beginning, and the display (15) is turned on. It is.
[0033]
Case No. 12
When the key input operation is performed in a state where the surroundings are dark and no light from the light source is irradiated on the apparatus body, the first light sensor (3) and the second light sensor are the same as in the case No. 4 above. When both the output values of (30) are smaller than the reference value, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds from the time of the key input operation, and the display operation of the display (15) is turned on. Is set.
[0034]
Case No. 13
When the surroundings are bright, there is no key input operation, and no call is made, for example, when the surroundings are bright and the apparatus main body is held by the user, the first optical sensor (3) and Since ambient light is incident on the second photosensor (30), the output values of the first and second photosensors (3) and (30) are larger than when the ambient is dark.
In this case, it is necessary to turn on the display operation of the display (15) in order to display information such as that communication with another telephone is established on the display (15), but the surroundings are bright. Therefore, it is not necessary to illuminate the display surface of the display (15) and the plurality of operation keys of the key input device (14).
Therefore, when the output values of the first light sensor (3) and the second light sensor (30) are both larger than a predetermined reference value, the backlight (18a) and the key illumination device (18b) are turned off, and the display The display operation of (15) is set to on.
[0035]
Case No. 14
When the device body is held near the user's ear and the call is being performed in a bright environment, the ambient light is incident on the second light sensor (30), whereas the first light is incident on the device. Since the sensor (3) is not incident by being shielded by the user's ear, the output value of the second photosensor (30) is larger than the output value of the first photosensor (3).
In addition, the ambient light is bright and the ambient light is incident on the second optical sensor (30) even when a call is made with the device body placed on a desk with its front face facing down. However, since the ambient light is hardly incident on the first optical sensor (3), the output value of the second optical sensor (30) is larger than the output value of the first optical sensor (3). Become.
When a call is made as described above, it is useless to display information on the display (15) because the user does not see the display (15), and the display operation of the display (15) is turned on. There is no need to set to. Further, since the surroundings are bright, it is not necessary to illuminate the display surface of the display (15) and the plurality of operation keys of the key input device (14).
Therefore, the output value of the first photosensor (3) is smaller than the reference value, but the output value of the second photosensor (30) is larger than the reference value, and the output value of the second photosensor (30) is When the output value of the first light sensor (3) is sufficiently large, the backlight (18a) and the key illumination device (18b) are turned off, and the display operation of the display (15) is set to off.
[0036]
Case No. 15
If the surroundings are dark but there is no key input and no telephone call is being made when light from a light source is locally radiated toward the front of the device body, for example, the surroundings are dark, but from the back of the user When light is irradiated toward the user and the main body of the apparatus is held with the front facing the user, there is no key input operation and no telephone call is made, and the first optical sensor (3) Most of the light from the light source is incident on the light source, but since the light from the light source is hardly incident on the second light sensor (30), the output value of the first light sensor (3) is the second light sensor. It becomes larger than the output value of (30).
Even when the device body is placed on the desk with the front face facing upward, there is no key input operation and no telephone call is made, the first optical sensor (3) The ambient light is incident, but the ambient light is hardly incident on the second optical sensor (30), so that the output value of the first optical sensor (3) is that of the second optical sensor (30). It becomes larger than the output value.
In any of the above cases, it is necessary to turn on the display operation of the display (15) in order to display information such as that communication with another telephone is established on the display (15). Further, as in the case No. 3 above, the display (15) is displayed from the viewpoint that the state where the surroundings are dark and light is irradiated from the back of the user toward the user is dangerous for the user to perform some operation. It is necessary to illuminate a plurality of operation keys of the surface and the key input device (14).
Therefore, the output value of the first photosensor (3) is larger than the reference value, but the output value of the second photosensor (30) is smaller than the reference value, and the output value of the first photosensor (3) is When the output value of the second photosensor (30) is smaller than the reference value when the output value is sufficiently larger than the output value of the second photosensor (30), the backlight (18a) and the key illumination device (18b) ) Is lit for 10 seconds, and the display operation of the display (15) is set to ON.
[0037]
Case No. 16
When the device body is held near the user's ear and a call is made in a dark state, almost no light is incident on the first light sensor (3) and the second light sensor (30). The output values of the first and second photosensors (3) and (30) are smaller than when the surroundings are bright.
Further, even when the surroundings are dark, there is no key input operation, and no telephone call is made, almost no light is incident on the first optical sensor (3) and the second optical sensor (30). The output values of the first and second photosensors (3) and (30) are smaller than when the surroundings are bright.
As described above, the output values of the first optical sensor (3) and the second optical sensor (30) are both higher than the reference value when the telephone call is being performed and when the telephone call is not being performed. Becomes smaller. Therefore, even when the output values of the first and second light sensors (3) and (30) are both smaller than the reference value, the user may see the display (15) and communicate with other telephones. The display operation of the display (15) needs to be set to ON in order to display information such as that the state is established on the display (15). Further, since the surroundings are dark, it is necessary to illuminate the display surface of the display (15) and the plurality of operation keys of the key input device (14).
Therefore, when the output value of the second optical sensor (30) is smaller than the reference value when the output values of the first optical sensor (3) and the second optical sensor (30) are both smaller than the reference value. The backlight (18a) and the key illumination device (18b) are lit for 10 seconds, and the display operation of the display (15) is set to ON.
[0038]
4 to 6 show control procedures for turning on / off the backlight (18a) and the key illumination device (18b) and on / off the display operation of the display (15) by the control circuit (10).
First, in step S1, it is determined whether or not the power is turned on. If no (No), the same determination is repeated in step S1, and if yes (Yes), the process proceeds to step S2. Make the necessary initial settings such as port settings. As a result, the apparatus main body enters a standby state for incoming calls.
[0039]
Next, in step S3, after the output values of the first photosensor (3) and the second photosensor (30) are captured, it is determined in step S4 whether or not a key input operation has been performed. The process proceeds to step S7.
On the other hand, if NO is determined in step S4, the process proceeds to step S5 to determine whether or not there is an incoming call. If NO, the process returns to step S3. If YES, the incoming call process is performed in step S6. After performing, it transfers to step S7.
[0040]
In step S7, it is determined whether or not the output value of the first photosensor (3) is larger than the reference value. If yes, the process proceeds to step S8, and the output value of the second photosensor (30) is set to the reference value. It is determined whether or not the value is greater than the value. If yes, the process proceeds to step S9.
If NO is determined in step S8, the process proceeds to step S10, and the difference between the output value of the first photosensor (3) and the output value of the second photosensor (30) is larger than a predetermined value. If the answer is no, the program proceeds to step S9.
In step S9, the backlight (18a) and the key illumination device (18b) are turned off and the display operation of the display (15) is set to ON, and then the process proceeds to step S16 in FIG. In step S9, in cases No. 1 and No. 5 in Table 1, the backlight (18a) and the key illumination device (18b) are turned off, and the display operation of the display (15) is set to ON. Become.
[0041]
On the other hand, if it is determined as YES in step S10, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds and the display operation of the display (15) is turned on in step S11. Then, the process proceeds to step S16 in FIG. In step S11, in cases No. 3 and No. 7 in Table 1, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds from the time of key input operation or the incoming time, and the display (15 ) Display operation is set to ON.
[0042]
If it is determined NO in step S7, the process proceeds to step S12 to determine whether or not the output value of the second photosensor (30) is greater than the reference value. If NO, the process proceeds to step S15. Transition.
If it is determined as YES in step S12, the process proceeds to step S13, and the difference between the output value of the second optical sensor (30) and the output value of the first optical sensor (3) is larger than a predetermined value. If the answer is no, the program proceeds to step S15.
In step S15, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds, and the display operation of the display (15) is set to ON. Then, the process proceeds to step S16 in FIG. In step S15, in cases Nos. 4 and 8 in Table 1, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds from the time of key input operation or the time of incoming call, and the display (15 ) Display operation is set to ON.
[0043]
On the other hand, if it is determined as YES in step S13, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds and the display operation of the display (15) is turned on in step S14. Then, the process proceeds to step S16 in FIG. In cases No. 2 and No. 6 in Table 1 above, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds from the time of the key input operation or the incoming time, and the display (15). Will be set to ON.
[0044]
In step S16 of FIG. 5, it is determined whether or not an off-hook key has been operated. If no, the process proceeds to step S17 to perform key input processing according to the user operation, and then return to step S5 of FIG. On the other hand, if yes, the process proceeds to step S18, and communication establishment processing for establishing communication with another telephone is performed. As a result, the apparatus main body enters a communication established state in which communication with other telephones is established.
[0045]
Subsequently, in step S19, after the output values of the first photosensor (3) and the second photosensor (30) are captured, it is determined in step S20 whether or not a key input operation has been performed. The process proceeds to step S21.
[0046]
In step S21, it is determined whether or not the output value of the first photosensor (3) is larger than the reference value. If yes, the process proceeds to step S22, and the output value of the second photosensor (30) is set to the reference value. It is determined whether or not the value is greater than the value. If yes, the process proceeds to step S23.
If NO is determined in step S22, the process proceeds to step S24, and the difference between the output value of the first photosensor (3) and the output value of the second photosensor (30) is larger than a predetermined value. If the answer is no, the program proceeds to step S23.
In step S23, the backlight (18a) and the key illumination device (18b) are turned off, and the display operation of the display (15) is set on, and then the process returns to step S19. By this step S23, in case No. 13 of Table 1 above, the backlight (18a) and the key illumination device (18b) are turned off, and the display operation of the display (15) is set to ON.
[0047]
On the other hand, if it is determined as YES in step S24, the process proceeds to step S25, and it is determined whether or not the output value fetched from the second optical sensor (30) was larger than the reference value last time. If no, the process returns to step S19. If yes, the process proceeds to step S26, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds, and the display operation of the display (15) is performed. After setting to ON, the process returns to step S19. When the situation around the user changes from case No. 13 or 14 in Table 1 to case No. 15 by the step S26, the backlight (18a) and the key illumination device (18b) are only for 10 seconds from that point. At the same time, the display operation of the display (15) is turned on.
[0048]
If it is determined NO in step S21, the process proceeds to step S27 to determine whether the output value of the second optical sensor (30) is greater than the reference value. If YES, the process proceeds to step S28. Thus, it is determined whether or not the difference between the output value of the second photosensor (30) and the output value of the first photosensor (3) is greater than a predetermined value. If yes, the process proceeds to step S29.
In step S29, the backlight (18a) and the key illumination device (18b) are turned off, and the display operation of the display (15) is set off, and then the process returns to step S19. By this step S29, in case No. 14 of Table 1 above, the backlight (18a) and the key illumination device (18b) are turned off, and the display operation of the display (15) is set to OFF.
[0049]
If it is determined NO in step S27 or S28, it is determined in step S30 whether the output value previously captured from the second optical sensor (30) was larger than the reference value. If YES, the process returns to step S19. If YES, the process proceeds to step S31. The backlight (18a) and the key illumination device (18b) are turned on for 10 seconds and the display operation of the display (15) is turned on. After setting, the process returns to step S19. When the situation around the user changes from case No. 13 or 14 in Table 1 to case No. 16 by the step S31, the backlight (18a) and the key illumination device (18b) are only for 10 seconds from that point. At the same time, the display operation of the display (15) is turned on.
[0050]
If it is determined as YES in step S20, the process proceeds to step S32 in FIG. 6 to determine whether or not the output value of the first optical sensor (3) is larger than the reference value. The process proceeds to step S33, where it is determined whether or not the output value of the second photosensor (30) is larger than the reference value. If yes, the process proceeds to step S34.
If NO is determined in step S33, the process proceeds to step S35, and the difference between the output value of the first photosensor (3) and the output value of the second photosensor (30) is larger than a predetermined value. If the answer is no, the program proceeds to step S34.
In step S34, the backlight (18a) and the key illumination device (18b) are turned off and the display operation of the display (15) is set to ON, and then the process proceeds to step S41. By this step S34, in case No. 9 in Table 1 above, the backlight (18a) and the key illumination device (18b) are turned off, and the display operation of the display (15) is set to ON.
[0051]
On the other hand, if it is determined as YES in step S35, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds and the display operation of the display (15) is turned on in step S36. Then, the process proceeds to step S41. By this step S36, in case No. 11 in Table 1 above, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds from the time of the key input operation, and the display operation of the display (15) is turned on. Will be set to.
[0052]
If it is determined NO in step S32, the process proceeds to step S37 to determine whether the output value of the second photosensor (30) is larger than the reference value. If NO, the process proceeds to step S40. Transition.
If it is determined as YES in step S37, the process proceeds to step S38, and the difference between the output value of the second photosensor (30) and the output value of the first photosensor (3) is larger than a predetermined value. If the answer is no, the program proceeds to step S40.
In step S40, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds and the display operation of the display (15) is set to ON, and then the process proceeds to step S41. By this step S40, in case No. 12 of Table 1 above, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds from the time of the key input operation, and the display operation of the display (15) is turned on. Will be set to.
[0053]
On the other hand, if it is determined as YES in step S38, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds and the display operation of the display (15) is turned on in step S39. Then, the process proceeds to step S41. In step S39, in case No. 10 of Table 1 above, the backlight (18a) and the key illumination device (18b) are turned on for 10 seconds from the time of the key input operation, and the display operation of the display (15) is turned on. Will be set.
[0054]
In step S41, it is determined whether or not the key input operation is an on-hook key operation. If no, the process returns to step S19 in FIG.
On the other hand, if it is determined as YES in step S41, communication disconnection processing for disconnecting communication with another telephone is performed in step S42, and the process returns to step S3 in FIG. As a result, the apparatus main body changes from the communication established state to the incoming call waiting state.
[0055]
According to the above mobile phone, in a situation where the surroundings are dark and the light of some light source is locally irradiated from the back of the user toward the user (cases No. 3, 7, 11, and 15 in Table 1 above), Since the backlight (18a) and the key illumination device (18b) are turned on, the periphery of the device main body is slightly brightened, and the danger of the user performing any operation in such a situation is reduced.
In addition, it is useless to display information on the display (15), that is, the situation where the surroundings are bright and the device body is held in the user's ear (the case No. 14 in Table 1 above). ), The backlight (18a) and the key illumination device (18b) are turned off and the display operation of the display (15) is turned off, so that wasteful power consumption is suppressed and effective use of power is achieved. Will be.
As described above, according to the mobile phone of the present invention, the backlight (18a) and the key illumination device (18b) are automatically turned on and off at appropriate timings according to the surrounding conditions, and the display (15 ) Display operation can be automatically turned on / off at an appropriate timing.
[Brief description of the drawings]
FIG. 1 is a perspective view of a mobile phone according to the present invention as viewed from the front side.
FIG. 2 is a perspective view of the mobile phone as viewed from the back side.
FIG. 3 is a block diagram showing an electrical configuration of the mobile phone.
FIG. 4 is a flowchart showing a control procedure in the mobile phone.
FIG. 5 is a flowchart showing a first partial diagram of FIG. 4;
FIG. 6 is a flowchart showing a second partial diagram of FIG. 4;
FIG. 7 is a perspective view of a conventional mobile phone as viewed from the front side.
[Explanation of symbols]
(1) Casing
(13) Antenna
(14) Key input device
(15) Display
(17) Speaker
(18a) Backlight
(18b) Key illumination device
(19) Microphone
(3) First optical sensor
(30) Second optical sensor

Claims (3)

In the mobile phone in which the transmitter and receiver are arranged on the front surface of the casing and the display surface of the information display device is arranged,
An illumination device for illuminating the display surface of the information display device;
First light detection means arranged at a position capable of detecting the brightness around the front side of the apparatus body;
Second light detection means arranged at a position capable of detecting the brightness around the back side of the apparatus body;
Illumination control means for controlling lighting and extinction of the illumination device based on output signals of the first light detection means and the second light detection means
The lighting control means comprises
Means for comparing the brightness detected by the first light detection means and the brightness detected by the second light detection means with a reference value in a communication established state;
When the brightness detected by the first light detection unit is higher than the reference value in the communication established state, if the brightness detected by the second light detection unit is higher than the reference value, the lighting device is turned off. When the brightness detected by the second light detection means is low with a difference exceeding a predetermined value from the reference value, the previous detection value of the brightness detected by the second light detection means is higher than the reference value Only, means for starting the operation of lighting the lighting device for a certain time,
When the brightness detected by the first light detection means is less than or equal to the reference value in the communication established state, if the brightness detected by the second light detection means is higher than the reference value with a difference exceeding a predetermined value, While the apparatus is turned off, when the brightness detected by the second light detection means is below the reference value, only when the previous detection value of the brightness detected by the second light detection means is higher than the reference value And a means for starting an operation of turning on the lighting device for a certain period of time . The mobile phone according to claim 1 , further comprising display control means for controlling on / off of a display operation of the information display device based on output signals of the first light detection means and the second light detection means. Wherein the display control unit, during a call, claim brightness detected by the first light detecting means is lower than the brightness detected by the second light detecting means, for turning off the display operation of the information display device 2. The mobile phone according to 2 .

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