JP4465948B2 - Electronic flash device - Google Patents

Description

ＧＮに最大ガイドナンバを、Ｄに撮影距離を、ＥＶに調光補正値を代入することで求まるＦを推奨絞り値とするものである。
【００３４】
（２）カメラがフィルムカメラで、適正ガイドナンバが最小ガイドナンバより小さい場合
発光量演算部４４は、適正ガイドナンバを最小ガイドナンバに等しくする絞り値を、推奨絞り値として求める。この際、発光可能範囲より小さい適正ガイドナンバ及び設定されている絞り値でフィルムに与える露光量と、最小ガイドナンバ及び推奨絞り値での露光量とを等しくする。この演算は、例えば、（１）式において、ＧＮに最小ガイドナンバを、Ｄに撮影距離を、ＥＶに調光補正値を代入することで求まるＦを推奨絞り値とするものである。
【００３５】
（３）カメラがデジタルカメラで、適正ガイドナンバが最大ガイドナンバより大きい場合
発光量演算部４４は、適正ガイドナンバを最大ガイドナンバに等しくする絞り値を、（１）と同様に推奨絞り値として求める。また、発光量演算部４４は、最大ガイドナンバを適正ガイドナンバに等しくするＩＳＯ値を、推奨ＩＳＯ値（推奨撮像感度）として求める。この演算は、例えば、次式において、
【数２】

Ｄに撮影距離を、Ｆに絞り値を、ＥＶに調光補正値を、ＧＮにＩＳＯ値が１００のときの最大ガイドナンバを代入することで求まるＳを推奨ＩＳＯ値とするものである。
【００３６】
（４）カメラがデジタルカメラで、適正ガイドナンバが最小ガイドナンバより小さい場合
発光量演算部４４は、適正ガイドナンバを最小ガイドナンバに等しくする絞り値を、（２）と同様に推奨絞り値として求める。また、発光量演算部４４は、最小ガイドナンバを適正ガイドナンバに等しくするＩＳＯ値を、推奨ＩＳＯ値として求める。この演算は、例えば、（２）式において、Ｄに撮影距離を、Ｆに絞り値を、ＥＶに調光補正値を、ＧＮにＩＳＯ値が１００のときの最小ガイドナンバを代入することで求まるＳを推奨ＩＳＯ値とするものである。
【００３７】
（１）または（２）の処理が行われた場合、表示部４６は、ステップ３または４で設定された絞り値の表示を点滅させることで警告し、推奨絞り値も表示する。（３）または（４）の処理が行われた場合、表示部４６は、ステップ３または４で設定された絞り値及びＩＳＯ値を点滅させることで警告し、推奨絞り値及び推奨ＩＳＯ値も表示する。そして、ステップ１３に進む。
【００３８】
［ステップ１３］ ユーザが撮影条件を再設定する場合、ステップ２に戻る。ユーザが撮影条件を再設定しない場合、ステップ１４に進む。
［ステップ１４］ ステップ１で距離選択マニュアルモードが選択されなかった場合、またはステップ１３でユーザが撮影条件の再設定を選択しなかった場合の処理である。発光制御部４８は、ＴＴＬ調光モードに設定される。また、表示部４６の上部には、「ＤＭ」の代わりに「ＴＴＬ」と表示される。
【００３９】
［ステップ１５］ カメラのレリーズ釦が全押しされた場合、ステップ１６へ進む。カメラから撮影条件の変更を伝達された場合、ステップ１へ戻る。
［ステップ１６］ 発光制御部４８は、通信部４０を介してカメラから受ける発光起動信号及び発光停止信号に応じて、発光部３４に発光させる。
《第１の実施形態の表示例》
図４は、表示部４６の表示例を示している。図４（ａ）は、上述したステップ３でＩＳＯ値１００、絞り値１６、焦点距離３５ミリメートルをデジタルカメラから伝達され、ステップ５で撮影距離２．８３メートルが選択された場合を示している。このとき、発光量演算部４４は、適正ガイドナンバ４５を算出している。例えば、この条件での最大ガイドナンバは３２であり、調光補正値は入力されなかったとする。この場合、最大ガイドナンバ３２で発光すると露光不足になるが、絞り値を下げて露光量を大きくするか、撮像素子のＩＳＯ値を高めれば、露光量は適正範囲内になる。
【００４０】
従って、表示部４６は、図４（ｂ）に示すように、設定された絞り値及びＩＳＯ値の表示を点滅させることで警告し、推奨絞り値１１及び推奨ＩＳＯ値２００を表示する。この後、例えば、デジタルカメラの撮像素子のＩＳＯ値が２００以上に変更される（この例では２００）と、デジタルカメラは変更後のＩＳＯ値を電子閃光装置３０に伝達する。そして、図４（ｃ）に示すように、推奨ＩＳＯ値及び推奨絞り値の表示は消える。
【００４１】
なお、本実施形態では、発光量は表示されない。これは、表示される情報が多すぎるために、ユーザがどのパラメータを見ればよいか迷うおそれを小さくするためである。従って、適正ガイドナンバ及び発光可能範囲を求める演算に必要な情報のみ（ＩＳＯ値、絞り値、焦点距離、撮影距離、調光補正値）が表示される。
図５は、表示部４６の別の表示例を示している。図５（ａ）は、ＩＳＯ値１００、絞り値２．８、焦点距離３５ミリメートル、撮影距離０．５メートルが入力された場合を示している。このとき、発光量演算部４４は、適正ガイドナンバ１．４を算出している。例えば、この条件での最小ガイドナンバは１であり、電子閃光装置３０はフィルムカメラとともに用いられており、調光補正値−２．０が入力され、発光量演算部４４は適正ガイドナンバを０．７に変更したとする。この場合、最小ガイドナンバ１で発光すると露光過度になるが、絞り値を上げて露光量を小さくすれば、露光量は適正範囲内になる。
【００４２】
従って、表示部４６は、図５（ｂ）に示すように、設定された絞り値の表示を点滅させることで警告し、その右側に推奨絞り値４も表示する。この後、例えば、ユーザが絞り値を４以上に変更すると（この例では４）、図５（ｃ）に示すように、推奨絞り値の表示は消える。
《第１の実施形態の効果・従来の動作機構との違い》
従来の光量選択マニュアルモードでは、ユーザに発光量を選択させ、選択された発光量での適正撮影距離を表示していた。このため、発光量の選択後に調光補正値を入力すると、発光量の変更に連動して適正撮影距離の表示も切り替わっていた。
【００４３】
そこで、本実施形態では、従来とは異なる動作機構の距離選択マニュアルモードを提案した。すなわち、発光量ではなく、撮影距離をユーザに選択させ（ステップ５）、撮影距離に応じて適正ガイドナンバを求め（ステップ６）、適正ガイドナンバで発光させた（ステップ１１）。このため、ユーザは、ＩＳＯ値、絞り値、焦点距離の設定後は、撮影距離を入力するだけで、適正な光量で被写体を照明できる。従って、ガイドナンバや、１／２発光等の光量に関する知識のないユーザも、容易に適正発光量に設定できる。
【００４４】
図４及び図５に示したように、撮影距離の選択後は、調光補正値の入力の有無及び適正ガイドナンバが発光可能範囲内かに拘わらず、表示部４６は選択された撮影距離を表示し続ける。従って、従来の光量選択マニュアルモードのように、撮影距離の表示が変更されることで、ユーザは混乱する、あるいは、誤解して撮影距離を新たに表示される距離に変更するおそれはなくなる。
【００４５】
入力される調光補正値に応じて、適正ガイドナンバを変更させた（ステップ７）。このため、撮影条件に応じて、通常の適正露光量よりオーバーまたはアンダーな露光量になるように、発光量を調整できる。
適正ガイドナンバが最大ガイドナンバを超えた場合に、適正ガイドナンバが最大ガイドナンバに等しくなる推奨絞り値を表示させた（ステップ１２）。同様に、適正ガイドナンバが最小ガイドナンバより小さい場合に、適正ガイドナンバが最小ガイドナンバに等しくなる推奨絞り値を表示させた。このため、ユーザは、どのように設定を変更すれば、最小の変更量で、発光量を発光可能範囲内にできるかを容易に認識できる。
【００４６】
適正ガイドナンバが最大ガイドナンバを超えた場合、最大ガイドナンバを適正ガイドナンバまで高める推奨ＩＳＯ値を求めた（ステップ１２）。同様に、適正ガイドナンバが最小ガイドナンバより小さい場合、最小ガイドナンバを適正ガイドナンバまで下げる推奨ＩＳＯ値を求めた。このため、ユーザは、ＩＳＯ値を推奨ＩＳＯ値に変更するだけで、変更前に求められた適正ガイドナンバでの発光を可能にできる。
【００４７】
発光制御部４８は、焦点距離に応じてカメラ側の撮影レンズの画角を概算し、発光部３４の配光角が画角よりわずかに大きくなるように調整した（ステップ６）。このため、ほぼ画角内に収まる部分にのみ、光は照射される。従って、画角に応じて、単位立体角当たりに照射される光量（最大ガイドナンバ）を最大限にできる。
【００４８】
《第２の実施形態の構成・動作》
次に、本発明の電子閃光装置の第２の実施形態を説明する。本実施形態は、発光量演算部、設定部、及び表示部の動作が異なることを除いて、第１の実施形態と同じ構成である。このため、本実施形態の構成に関する説明及び図面を省略する。なお、第１の実施形態と区別するため、本実施形態での電子閃光装置を３０Ｂ、設定部を４２ｂ、発光量演算部を４４ｂ、表示部４６ｂと表記する。
【００４９】
図６は、本実施形態の電子閃光装置３０Ｂの動作を示す流れ図である。第１の実施形態と同一処理部分には、同一ステップ番号を付し、これ等処理については説明を省略する。本実施形態の電子閃光装置３０Ｂは、第１の実施形態のステップ１２及び１３の処理の代わりに、以下に説明するステップ１７の処理を行うことを除いて、第１の実施形態と同様に動作する。
【００５０】
［ステップ１７］ ステップ８で、適正ガイドナンバが発光可能範囲外であった場合の処理である。発光量演算部４４ｂは、以下の（１）〜（４）の場合に分けて演算処理を行い（請求項記載の推奨値演算に対応）、設定部４２ｂ及び表示部４６ｂは、発光量演算部４４ｂの処理に応じて動作する。
（１）カメラがフィルムカメラで、適正ガイドナンバが最大ガイドナンバより大きい場合
発光量演算部４４ｂは、適正ガイドナンバが最大ガイドナンバに等しくなる絞り値を、推奨絞り値として求め、設定部４２に伝達する。設定部４２は、伝達された推奨絞り値に絞り値を変更し、変更後の絞り値を表示部４６ｂに伝達する。表示部４６ｂは、変更後の絞り値を点滅表示する（変更前の絞り値は表示されない）。また、発光量演算部４４ｂは、絞り値を推奨絞り値に変更し、適正ガイドナンバを最大ガイドナンバと同じ値に変更する。発光量演算部４４ｂは、変更後の適正ガイドナンバを発光制御部４８に伝達する。
【００５１】
（２）カメラがフィルムカメラで、適正ガイドナンバが最小ガイドナンバより小さい場合
発光量演算部４４ｂは、適正ガイドナンバが最小ガイドナンバに等しくなる絞り値を、推奨絞り値として求め、設定部４２ｂに伝達する。設定部４２ｂは、伝達された推奨絞り値に絞り値を変更し、変更後の絞り値を表示部４６ｂに伝達する。表示部４６ｂは、変更後の絞り値を点滅表示する。また、発光量演算部４４ｂは、絞り値を推奨絞り値に変更し、適正ガイドナンバを最小ガイドナンバと同じ値に変更する。発光量演算部４４ｂは、変更後の適正ガイドナンバを発光制御部４８に伝達する。
【００５２】
（３）カメラがデジタルカメラで、適正ガイドナンバが最大ガイドナンバより大きい場合
発光量演算部４４ｂは、最大ガイドナンバを適正ガイドナンバに等しくするＩＳＯ値を、推奨ＩＳＯ値として求め、設定部４２ｂに伝達する。設定部４２ｂは、伝達された推奨ＩＳＯ値にＩＳＯ値を変更し、変更後のＩＳＯ値を表示部４６ｂに伝達する。表示部４６ｂは、変更後のＩＳＯ値を点滅表示する（変更前のＩＳＯ値は表示されない）。また、発光量演算部４４ｂは、ＩＳＯ値を推奨ＩＳＯ値に変更し、最大ガイドナンバを適正ガイドナンバと同じ値に変更する。発光量演算部４４ｂは、適正ガイドナンバを発光制御部４８に伝達する。
【００５３】
（４）カメラがデジタルカメラで、適正ガイドナンバが最小ガイドナンバより小さい場合
発光量演算部４４ｂは、最小ガイドナンバを適正ガイドナンバに等しくするＩＳＯ値を、推奨ＩＳＯ値として求め、設定部４２ｂに伝達する。設定部４２ｂは、伝達された推奨ＩＳＯ値にＩＳＯ値を変更し、変更後のＩＳＯ値を表示部４６ｂに伝達する。表示部４６ｂは、変更後のＩＳＯ値を点滅表示する。また、発光量演算部４４ｂは、ＩＳＯ値を推奨ＩＳＯ値に変更し、最小ガイドナンバを適正ガイドナンバと同じ値に変更する。発光量演算部４４ｂは、適正ガイドナンバを発光制御部４８に伝達する。
【００５４】
《第２の実施形態の表示例》
図７は、表示部４６ｂの表示例を示している。図７（ａ）は、ＩＳＯ値１００、絞り値２、焦点距離３５ミリメートルをデジタルカメラから伝達され、撮影距離１メートルが入力された場合を示している。このとき、発光量演算部４４ｂは、適正ガイドナンバ２を算出している。例えば、この条件での最小ガイドナンバは１であり、この後、調光補正値として−３．０が入力されたとする。この場合、表示部４６は、図４（ｂ）に示すように、調光補正値の入力とほぼ同時に、ＩＳＯ値５０を点滅表示することで警告する。これにより、ユーザは、デジタルカメラのＩＳＯ値を５０に変更すれば、適正露光量を与える発光を実施できることを知らされる。
【００５５】
図８は、表示部４６ｂの別の表示例を示している。図８（ａ）は、ＩＳＯ値１００、絞り値２、焦点距離３５ミリメートル、撮影距離１６．０メートルが入力された場合を示している。このとき、発光量演算部４４ｂは、適正ガイドナンバ３２を算出している。例えば、この条件での最大ガイドナンバは３２であり、電子閃光装置はフィルムカメラとともに用いられており、調光補正値＋１．０が入力されたとする。この場合、表示部４６ｂは、図８（ｂ）に示すように、調光補正値の入力とほぼ同時に、絞り値１．４を点滅表示することで警告する。これにより、ユーザは、フィルムカメラの絞り値を１．４に変更すれば、適正露光量を与える発光を実施できることを知らされる。
【００５６】
《第２の実施形態の効果》
以上、第２の実施形態においても、上述した第１の実施形態と同様の効果を得ることができる。さらに、本実施形態では、適正ガイドナンバが発光可能範囲から外れた場合、発光量演算部４４ｂ及び設定部４２ｂは、絞り値（またはＩＳＯ値）を推奨絞り値（または推奨ＩＳＯ値）に自動的に変更し、表示部４６ｂは変更後の絞り値（またはＩＳＯ値）を点滅表示した。このため、ユーザは、カメラ側の絞り値（またはＩＳＯ値）を点滅表示された値に変更した後、電子閃光装置３０ｂの設定を変更する必要がないため、少ない操作量で撮影を実施できる。
【００５７】
《本発明の補足事項》
なお、上述した第１の実施形態では、入力された（またはカメラ側から伝達された）絞り値と、推奨絞り値の両方を表示した例を述べた。本発明は、かかる実施形態に限定されるものではない。例えば、両方を交互に点滅表示してもよい。ＩＳＯ値の表示に関しても同様である。
【００５８】
上述した第１及び第２の実施形態では、発光量を表示しない例について述べた。本発明は、かかる実施形態に限定されるものではない。発光量を表示してもよい。
上述した第１及び第２の実施形態では、プリセットされた複数の値から撮影距離、調光補正値を選択する例について述べた。本発明は、かかる実施形態に限定されるものではない。ユーザが任意の値をＩＳＯ値、絞り値、焦点距離、撮影距離、または調光補正値として入力する形態でもよい。
【００５９】
上述した第１及び第２の実施形態では、電子閃光装置３０（３０Ｂ）は、カメラに接続されることでカメラとのデータ交信を行う例について述べた。本発明は、かかる実施形態に限定されるものではない。電子閃光装置３０（３０Ｂ）が電波等によりカメラ側とのデータ交信を行う形態でもよい。
上述した第１及び第２の実施形態では、設定部４２（４２ｂ）は焦点距離情報を取得し、発光制御部４８及び発光量演算部４４（４４ｂ）は焦点距離からカメラの撮影レンズの画角を概算する例について述べた。本発明は、かかる実施形態に限定されるものではない。例えば、焦点距離及びカメラがピントを合わせている被写体の距離から、撮影レンズの画角をより正確に求める形態でもよい。あるいは、撮影レンズの画角を直接入力または取得する形態でもよい。
【００６０】
上述した第１及び第２の実施形態では、発光部３４の配光角は、撮影レンズの画角よりわずかに大きくされる例について述べた。本発明は、かかる実施形態に限定されるものではない。発光部３４の配光角を画角に等しくしてもよい。演算された適正ガイドナンバが最小ガイドナンバより小さい場合、配光角を画角より大きくすることで、最小ガイドナンバをさらに小さくしてもよい。
【００６１】
上述した第１の実施形態では、設定された絞り値（ＩＳＯ値）の表示を点滅させることで警告し、推奨値を表示する例について述べ、第２の実施形態では、設定された絞り値（ＩＳＯ値）の表示を消して推奨値を点滅表示することで警告する例について述べた。本発明は、かかる実施形態に限定されるものではない。例えば、「絞り値を１１に変更して下さい」と推奨値を音声で知らせることで警告してもよい。
【００６２】
上述した第２の実施形態では、絞り値、ＩＳＯ値、撮影距離等を表示部に表示する例について述べた。本発明は、かかる実施形態に限定されるものではない。例えば、ダイヤルで撮影距離等を選択させ、適正ガイドナンバが発光可能範囲外であった場合の変更後の絞り値（ＩＳＯ値）を音声で知らせるようにすることで、表示部を省いてもよい。
【００６３】
【発明の効果】
本発明の電子閃光装置では、撮影距離をユーザに入力させ、撮影距離に応じて適正発光量を求めた。従って、ガイドナンバや、１／２発光等の光量に関する知識のないユーザも、容易に適正発光量に設定できる。
【図面の簡単な説明】
【図１】本発明の電子閃光装置の第１の実施形態を示すブロック図である。
【図２】図１の設定部及び表示部の詳細を示す正面図である。
【図３】第１の実施形態における、電子閃光装置の動作を示す流れ図である。
【図４】第１の実施形態における、表示部の表示例を示す説明図である。
【図５】第１の実施形態における、表示部の別の表示例を示す説明図である。
【図６】第２の実施形態における、電子閃光装置の動作を示す流れ図である。
【図７】第２の実施形態における、表示部の表示例を示す説明図である。
【図８】第２の実施形態における、表示部の別の表示例を示す説明図である。
【図９】光量選択マニュアルモードの動作の一例を示す流れ図である。
【図１０】光量選択マニュアルモードにおける、表示窓の表示例を示す説明図である。
【符号の説明】
２８ 表示窓
３０、３０Ｂ 電子閃光装置
３２ 本体部
３４ 発光部
３６ 回転軸
４０ 通信部
４２、４２ｂ 設定部
４４、４４ｂ 発光量演算部
４６、４６ｂ 表示部
４８ 発光制御部
５０ シュー接点
５２ 操作釦群
５４ キセノン管
５６ 配光角調整部
５８ バウンス角度表示部
６２ モード釦
６４ 選択釦
６６ プラス釦
６８ マイナス釦[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic flash device capable of adjusting a light emission amount manually.
[0002]
[Prior art]
As one of the light emission modes of the electronic flash device, a light amount selection manual mode in which the user can arbitrarily select the light emission amount is known. FIG. 9 is a flowchart showing an example of the operation in the light quantity selection manual mode. Hereinafter, an example of the operation in the light quantity selection manual mode will be described according to the step numbers shown in FIG.
[0003]
[Step 1] When data communication is performed between the electronic flash device and the camera, the ISO value (imaging sensitivity of the film or the image sensor) is transferred from the camera CPU (not shown) to the electronic flash device CPU (not shown). The aperture value and focal length of the taking lens are transmitted. When data communication between the electronic flash device and the camera is not performed, the user inputs an ISO value, an aperture value, and a focal length to the electronic flash device.
[0004]
[Step 2] The user selects one of the light emission amounts displayed as M1 / 1, M1 / 2... M1 / 64, for example.
[Step 3] The CPU of the electronic flash device converts the selected light emission amount into a light emission guide number according to the ISO value. Then, an appropriate shooting distance is obtained and displayed according to the light emission guide number and the aperture value. If the light emission guide number is G, the appropriate shooting distance is L, and the aperture value is F,
L = G ÷ F.
[0005]
[Step 4] When the user wants to increase or decrease the light emission amount selected, the user inputs a dimming correction value.
[Step 5] When the light adjustment correction value is input in Step 4, the CPU of the electronic flash device changes the light emission amount according to the light adjustment correction value, and obtains an appropriate shooting distance for the changed light emission amount. Then, the newly obtained appropriate shooting distance is displayed.
[0006]
[Problems to be solved by the invention]
FIG. 10 is an explanatory diagram showing a display example of the display window of the electronic flash device in the above-described light amount selection manual mode. As shown in FIG. 10A, for example, when the shooting condition is an ISO value of 100 and an aperture value of 8 and M1 / 4 (corresponding to the light emission guide number G = 16) is selected, the appropriate shooting distance is 2 meters. Is displayed in the center of the display window 28.
[0007]
After this, for example, when the light control correction value +0.7 EV is input, the light emission guide number G is set to be increased to 20 (approx. 20). Then, as shown in FIG. 10B, the display of the appropriate shooting distance at the center of the display window 28 is switched to 2.5 meters in conjunction with the change in the light amount setting. If the user misunderstands this as a warning and changes the shooting distance from 2 meters to 2.5 meters, the meaning of the brightening setting is lost.
[0008]
Further, in the state of FIG. 10A, for example, when a dimming correction value of −0.7 EV is input, the light emission guide number G is set to be dimmed to 13. Then, as shown in FIG. 10C, the display of the appropriate shooting distance at the center of the display window 28 is switched to 1.6 meters in conjunction with the change in the light amount setting. If the user misunderstands this as a warning and changes the shooting distance from 2 meters to 1.6 meters, the meaning of dimming will be lost.
[0009]
That is, in the above-described light amount selection manual mode, when the light adjustment correction value is input after the light emission amount is selected, the display of the appropriate shooting distance is changed. Therefore, the user is confused or misunderstood, and there is a problem that the photographing distance may be changed to an appropriate photographing distance displayed after inputting the dimming correction value. In particular, since it takes time for beginners who do not have knowledge about the light quantity such as the guide number and 1/2 light emission to get used to it, a more easy-to-understand input method has been desired.
[0010]
An object of the present invention is to provide a user-friendly input method in an electronic flash device in which the amount of light emission can be adjusted manually.
[0011]
[Means for Solving the Problems]
An electronic flash device according to a first aspect of the present invention includes a light emitting unit that irradiates a subject with light, and a shooting distance. Enter first Input method And second input means for inputting a dimming correction value for increasing or decreasing light A setting unit having Input by the first input means Find the appropriate amount of light that gives the right exposure according to the shooting distance In addition, when the dimming correction value is input by the second input means, the appropriate light emission amount is changed based on the dimming correction value. A light emission amount calculation unit; changed A light emission control unit for causing the light emitting unit to emit light with an appropriate light emission amount; Even if the proper light emission amount is changed by the light adjustment correction value, the photographing input by the first input means without displaying the proper photographing distance based on the changed proper light emission amount. A distance display unit that continuously displays the distance. It is characterized by that.
[0012]
An electronic flash device according to a second aspect of the present invention includes a light emitting unit that irradiates a subject with light, and a shooting distance. Enter first Input method And second input means for inputting a dimming correction value for increasing or decreasing light A setting unit having Input by the first input means Find the appropriate amount of light that gives the right exposure according to the shooting distance. In addition, when the dimming correction value is input by the second input means, the appropriate light emission amount is changed using the dimming correction value, When the appropriate light emission amount is out of the light emission possible range of the light emitting unit, changed A light emission amount calculation unit for performing a recommended value calculation for obtaining a diaphragm value on the camera side where the appropriate light emission amount falls within the light emission possible range as a recommended aperture value; Appropriate light emission amount re-changed within the light emission possible range by the recommended value calculation In the light emitting part The A light emission control unit for emitting light, and a warning display unit for displaying the recommended aperture value as a warning; As a result of performing the recommended value calculation, even if the changed appropriate light emission amount is changed again within the light emission possible range, it is based on the appropriate correction amount changed again within the light emission possible range. A distance display unit that does not display an appropriate shooting distance and continues to display the shooting distance input by the first input unit. It is characterized by that.
[0013]
An electronic flash device according to a third aspect of the present invention includes a light emitting unit that irradiates a subject with light, and a shooting distance. Enter first Input method And second input means for inputting a dimming correction value for increasing or decreasing light A setting unit having Input by the first input means Find the appropriate amount of light that gives the right exposure according to the shooting distance. In addition, when the dimming correction value is input by the second input means, the appropriate light emission amount is changed using the dimming correction value. When the appropriate light emission amount is out of the light emission possible range of the light emitting unit, changed A light emission amount calculation unit for performing a recommended value calculation for obtaining the imaging sensitivity on the camera side where the appropriate light emission amount is within the light emission possible range as the recommended imaging sensitivity; It was changed again within the light emission possible range by the recommended value calculation. The light emitting unit with the appropriate amount of light The A light emission control unit that emits light, and a display unit that displays a warning of the recommended imaging sensitivity. As a result of performing the recommended value calculation, even if the changed appropriate light emission amount is changed again within the light emission possible range, it is based on the appropriate correction amount changed again within the light emission possible range. A distance display unit that does not display an appropriate shooting distance and continues to display the shooting distance input by the first input unit. It is characterized by that.
[0014]
According to a fourth aspect of the present invention, there is provided an electronic flash device including at least one of a light emitting unit that irradiates light to a subject, an aperture value input unit on a camera side, and a unit that acquires the aperture value from the camera side. The first input means for inputting the shooting distance and the dimming correction value for increasing or decreasing light are input. A setting unit having second input means; ,in front Find the appropriate amount of light emission that gives the appropriate exposure according to the aperture value and the shooting distance. And when the dimming correction value is input by the second input means, the appropriate light emission amount is changed using the dimming correction value, Said Changed by the flash compensation value When the appropriate light emission amount is out of the light emission possible range of the light emitting unit, Changed by the flash compensation value A recommended value calculation is performed to determine the aperture value within which the appropriate light emission amount is within the light emission possible range as a recommended aperture value, the aperture value of the setting unit is changed to the recommended aperture value, and the aperture value is changed according to the recommended aperture value. Changed by the flash compensation value Proper light emission Re A light emission amount calculation unit to be changed, and Changed according to the recommended aperture value A light emission control unit for causing the light emitting unit to emit light with an appropriate light emission amount; Even if the appropriate light emission amount is changed again according to the recommended aperture value, the appropriate shooting distance based on the changed correct correction amount is not displayed and is input by the first input means. A distance display unit that continuously displays the shooting distance It is characterized by that.
[0015]
An electronic flash device according to a fifth aspect of the present invention includes at least one of a light emitting unit that irradiates light on a subject, an imaging sensitivity input unit on the camera side, and a unit that acquires the imaging sensitivity from the camera side. Enter the shooting distance, the first Input means And second input means for inputting a dimming correction value for increasing or decreasing light A setting unit having ,in front Determine the appropriate amount of light emission that gives appropriate exposure according to the imaging sensitivity and the shooting distance. In addition, when the dimming correction value is input by the second input means, the appropriate light emission amount is changed using the dimming correction value, and is changed by the dimming correction value. When the appropriate light emission amount is out of the light emission possible range of the light emitting unit, Changed by the flash compensation value A recommended value calculation is performed to determine the imaging sensitivity within which the appropriate light emission amount falls within the light emission possible range as a recommended imaging sensitivity, the imaging sensitivity of the setting unit is changed to the recommended imaging sensitivity, and the imaging sensitivity is set according to the recommended imaging sensitivity. Changed by the flash compensation value Proper light emission Re A light emission amount calculation unit to be changed, and Changed according to the recommended aperture value A light emission control unit for causing the light emitting unit to emit light with an appropriate light emission amount; Even if the appropriate light emission amount is changed again according to the recommended aperture value, the appropriate shooting distance based on the changed correct correction amount is not displayed and is input by the first input means. A distance display unit that continuously displays the shooting distance It is characterized by that.
[0016]
The sixth invention is the From 2 In any one of the fifth inventions, the setting unit comprises: It has at least one of an input means for information on the angle of view of the photographing lens on the camera side and a means for acquiring information on the angle of view, and the light emission control section The light distribution angle of light emission is adjusted, and the recommended value calculation is performed according to the light emission possible range determined by the light distribution angle. It is characterized by that.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
<< Configuration of First Embodiment >>
FIG. 1 is a block diagram showing a first embodiment of the electronic flash device of the present invention. . Book As will be described later, the electronic flash device 30 according to the embodiment can be switched between a distance selection manual mode for calculating an appropriate issuance amount according to an input shooting distance and a TTL dimming mode.
[0018]
The electronic flash device 30 includes a main body portion 32, a light emitting portion 34, and a rotating shaft 36 that rotatably attaches the light emitting portion 34 to the main body portion 32. The main body 32 includes a communication unit 40, a setting unit 42, a light emission amount calculation unit 44, a display unit 46, and a light emission control unit 48.
The communication unit 40 has a shoe contact 50 (see FIG. 2 described later) connected to a camera (not shown). When the electronic flash device 30 is attached to a camera capable of data communication, the communication unit 40 acquires an ISO value (imaging sensitivity of a film or an image sensor), an aperture value of a photographing lens, and a focal length from the camera, and a setting unit 42. In addition, the communication unit 40 transmits the acquired focal length to the light emission control unit 48.
[0019]
The setting unit 42 has an operation button group 52 (see FIG. 2 described later). The operation button group 52 is used to set the light emission control unit 48 to either the distance selection manual mode or the TTL dimming mode and to input an ISO value, an aperture value, a focal length, a shooting distance, and a dimming correction value. . When the ISO value, the aperture value, and the focal length are input, the setting unit 42 transmits the input values to the light emission amount calculation unit 44. When the ISO value, the aperture value, and the focal length are transmitted from the communication unit 40, the setting unit 42 transmits these transmitted values to the light emission amount calculating unit 44. In addition, the setting unit 42 transmits the input shooting distance and dimming correction value to the light emission amount calculation unit 44. Furthermore, the setting unit 42 also transmits the input or transmitted ISO value, aperture value, focal length, shooting distance, and dimming correction value to the display unit 46.
[0020]
The light emission amount calculation unit 44 obtains an appropriate guide number (appropriate light emission amount) given by the product of the aperture value and the shooting distance. Further, the light emission amount calculation unit 44 changes the obtained appropriate guide number in accordance with the dimming correction value. For example, when +1.0 is input as the dimming correction value, the appropriate guide number is increased by √2. The light emission amount calculation unit 44 performs a calculation for obtaining a recommended aperture value or a recommended imaging sensitivity when the appropriate guide number is out of the light emission possible range of the light emission unit 34. In the present embodiment, the maximum guide number (maximum light emission amount) of the light emitting unit 34 is determined by the ISO value and the focal length. This is because the light distribution angle of the light emitting unit 34 that determines the amount of irradiation light per unit solid angle is adjusted according to the focal length, as will be described later.
[0021]
When the distance selection manual mode is set, the light emission control unit 48 causes the light emitting unit 34 to emit light with an appropriate guide number. When the TTL light control mode is set, the light emission control unit 48 causes the light emitting unit 34 to emit light according to the light emission start signal and the light emission stop signal received from the camera. The light emission control unit 48 approximates the angle of view of the photographing lens of the camera from the transmitted focal length. The light emission control unit 48 commands the light emitting unit 34 so that the light distribution angle of the light emitting unit 34 is slightly larger than the angle of view.
[0022]
The light emitting unit 34 includes a xenon tube 54, a light distribution angle adjusting unit 56, and a bounce angle display unit 58.
In response to a command from the light emission control unit 48, the xenon tube 54 is supplied with a current from a charged capacitor (not shown) and emits light.
The light distribution angle adjustment unit 56 adjusts the light distribution angle of the light emitting unit 34 in accordance with a command from the light emission control unit 48.
[0023]
The light emission control unit 48 includes a booster unit and a photometry unit (not shown), and the electronic flash device 30 has an external dimming mode in addition to the distance selection manual mode and the TTL dimming mode.
[0024]
The booster boosts a voltage supplied from a power source (not shown) and charges the boosted voltage to the capacitor.
When the electronic flash device 30 is set to the external dimming mode, each unit operates as follows. The light metering unit detects the amount of light reflected from the subject and outputs it to the light emission control unit 48. The light emission amount calculation unit 44 obtains an appropriate value of the time integral value of the reflected light amount and transmits it to the light emission control unit 48. The light emission control unit 48 stops the light emission of the xenon tube when the time integral value of the reflected light amount output from the photometry unit reaches an appropriate value. Since this external dimming mode is conventional, the description thereof is omitted in this embodiment.
[0025]
FIG. 2 shows details of the setting unit 42 and the display unit 46. The operation button group 52 of the setting unit 42 includes a mode button 62, a selection button 64, a plus button 66, and a minus button 68. The mode button 62 switches the light emission control unit 48 to the distance selection manual mode or the TTL dimming mode each time it is pressed. Each time the selection button 64 is pressed, the setting unit 42 and the display unit 46 are set on an input screen for any one of the ISO value, aperture value, focal length, shooting distance, and dimming correction value. The plus button 66 and the minus button 68 are used for inputting or selecting a value on the input screen of each parameter. In the setting unit 42, for example, the following shooting distance values in increments of 1/6 are preset.
[0026]
0.50 0.53 0.56 0.59 0.62 0.67 0.71 0.75 0.79 0.84 0.89 0.94 1.00 1.05 1.12 1.19 1.26 1.33 1.41 1.50 1.59 1.68 1.78 1.89 2.00 2.12 2.24 2.38 2.52 2.67 2.83 3.00 3.17 3.36 3.56 3.78 4.00 4.24 4.49 4.76 5.04 5.34 5.66 5.99 6.35 6.73 7.13 7.55 8.00 8.98 9.51 10.1 10.7 11.3 12.0 12.7 13.5 14.3 15.1 16.0 17.0 18.0 19.0 20.2 21.4 22.0 (Unit is meter)
The setting unit 42 is preset with dimming correction values in increments of 1/3 as shown below, for example.
[0027]
−3.0 −2.7 −2.3 −2.0 ・ ・ ・ 0.0 +0.3 +0.7 +1.0 ・ ・ ・ +3.0
The user can select the shooting distance and the dimming correction value from any of the above values by operating the operation button group 52.
As shown in FIG. 2, the display unit 46 displays the ISO value in the upper left, the dimming correction value (EV) in the upper right, the shooting distance in the center, the focal length in the lower left, and the aperture value under the shooting distance. To do. The display unit 46 displays the light emission mode of the electronic flash device 30 on the right side of the ISO value display. When the distance selection manual mode is set, “DM” is displayed as shown, and when the TTL dimming mode is set, “TTL” is displayed.
[0028]
<< Operation of the First Embodiment >>
FIG. 3 is a flowchart showing the operation of the electronic flash device 30 of the present embodiment. Hereinafter, the operation up to light emission will be described according to the step numbers shown in FIG.
[Step 1] When the user selects the distance selection manual mode, “DM” is displayed at the top of the display unit 46. Then, the process proceeds to Step 2. If the user does not select the distance selection manual mode, the process proceeds to step 14.
[0029]
[Step 2] When data communication between the electronic flash device 30 and the camera is performed, the process proceeds to Step 3, and when data communication is not performed, the process proceeds to Step 4.
[Step 3] The electronic flash device 30 acquires an ISO value, an aperture value, and a focal length from the camera. The display unit 46 displays the acquired ISO value, aperture value, and focal length.
[Step 4] The user inputs an ISO value, an aperture value, and a focal length to the setting unit 42. The display unit 46 displays the input ISO value, aperture value, and focal length.
[0030]
[Step 5] The user inputs the shooting distance to the setting unit 42. The display unit 46 displays the input shooting distance.
[Step 6] The light emission control unit 48 causes the light distribution angle adjustment unit 56 to adjust the light distribution angle of the light emitting unit 34 according to the focal length. The light emission amount calculation unit 44 obtains an appropriate guide number.
[0031]
[Step 7] When the user wants to increase or decrease the light, the user selects and inputs a light adjustment correction value. The light emission amount calculation unit 44 changes the appropriate guide number according to the dimming correction value. When the dimming correction value is not input, the proper guide number is not changed.
[Step 8] The light emission amount calculation unit 44 obtains the maximum guide number (maximum light emission amount) and the minimum guide number (minimum light emission amount) of the light emission unit 34 from the ISO value and the focal length. The light emission amount calculation unit 44 determines whether or not the appropriate guide number is within the light emission possible range. When the appropriate guide number is within the light emission possible range, the light emission amount calculation unit 44 transmits the appropriate guide number to the light emission control unit 48. Then, the process proceeds to Step 9. If the appropriate guide number is outside the light emission possible range, the process proceeds to step 12.
[0032]
[Step 9] If the user selects resetting of the shooting conditions, the process returns to Step 2. If the user does not reset the shooting conditions, the process proceeds to step 10.
[Step 10] If the release button (not shown) of the camera is fully pressed, the process proceeds to Step 11. When the release button is released, the process returns to step 1.
[Step 11] The light emission control unit 48 receives a light emission activation signal from the camera via the communication unit 40, and causes the xenon tube 54 to emit light with an appropriate guide number in synchronization with the exposure time.
[0033]
[Step 12] This is processing when the appropriate guide number is outside the light-emitting range in Step 8. The light emission amount calculation unit 44 performs calculation processing in the following cases (1) to (4) (corresponding to the recommended value calculation in the claims).
(1) When the camera is a film camera and the appropriate guide number is greater than the maximum guide number
The light emission amount calculation unit 44 obtains an aperture value that makes the appropriate guide number equal to the maximum guide number as a recommended aperture value. At this time, the exposure amount given to the film with the appropriate guide number exceeding the light emission possible range and the set aperture value is made equal to the exposure amount with the maximum guide number and the recommended aperture value. For example, in the following equation:
[Expression 1]

The recommended aperture value is obtained by substituting the maximum guide number for GN, the shooting distance for D, and the dimming correction value for EV.
[0034]
(2) When the camera is a film camera and the appropriate guide number is smaller than the minimum guide number
The light emission amount calculation unit 44 obtains an aperture value that makes the appropriate guide number equal to the minimum guide number as a recommended aperture value. At this time, the exposure amount given to the film with an appropriate guide number smaller than the light emission possible range and the set aperture value is made equal to the exposure amount with the minimum guide number and the recommended aperture value. In this calculation, for example, in Formula (1), F is obtained by substituting the minimum guide number for GN, the shooting distance for D, and the dimming correction value for EV, and the recommended aperture value is F.
[0035]
(3) When the camera is a digital camera and the appropriate guide number is greater than the maximum guide number
The light emission amount calculation unit 44 obtains an aperture value that makes the appropriate guide number equal to the maximum guide number as a recommended aperture value as in (1). In addition, the light emission amount calculation unit 44 obtains an ISO value that makes the maximum guide number equal to the appropriate guide number as a recommended ISO value (recommended imaging sensitivity). For example, in the following equation:
[Expression 2]

The recommended ISO value is obtained by substituting the shooting distance in D, the aperture value in F, the dimming correction value in EV, and the maximum guide number when the ISO value is 100 in GN.
[0036]
(4) When the camera is a digital camera and the appropriate guide number is smaller than the minimum guide number
The light emission amount calculation unit 44 obtains an aperture value that makes the appropriate guide number equal to the minimum guide number as a recommended aperture value as in (2). Further, the light emission amount calculation unit 44 obtains an ISO value that makes the minimum guide number equal to the appropriate guide number as a recommended ISO value. This calculation is obtained, for example, by substituting the shooting distance in D, the aperture value in F, the dimming correction value in EV, and the minimum guide number when the ISO value is 100 in GN in equation (2). S is a recommended ISO value.
[0037]
When the process (1) or (2) is performed, the display unit 46 warns by blinking the display of the aperture value set in step 3 or 4, and also displays the recommended aperture value. When the processing of (3) or (4) is performed, the display unit 46 warns by blinking the aperture value and ISO value set in step 3 or 4, and also displays the recommended aperture value and recommended ISO value. To do. Then, the process proceeds to Step 13.
[0038]
[Step 13] If the user resets the shooting conditions, the process returns to Step 2. If the user does not reset the shooting conditions, the process proceeds to step 14.
[Step 14] This is processing when the distance selection manual mode is not selected in Step 1 or when the user does not select resetting of the photographing conditions in Step 13. The light emission control unit 48 is set to the TTL dimming mode. In addition, “TTL” is displayed instead of “DM” at the top of the display unit 46.
[0039]
[Step 15] If the release button of the camera is fully pressed, the process proceeds to Step 16. If the camera changes the shooting conditions, the process returns to step 1.
[Step 16] The light emission control unit 48 causes the light emitting unit 34 to emit light according to the light emission start signal and the light emission stop signal received from the camera via the communication unit 40.
<< Display Example of First Embodiment >>
FIG. 4 shows a display example of the display unit 46. FIG. 4A shows a case where the ISO value 100, the aperture value 16, and the focal length of 35 millimeters are transmitted from the digital camera in step 3 described above, and the shooting distance of 2.83 meters is selected in step 5. At this time, the light emission amount calculation unit 44 calculates an appropriate guide number 45. For example, it is assumed that the maximum guide number under this condition is 32 and no dimming correction value is input. In this case, when the maximum guide number 32 emits light, the exposure becomes insufficient. However, if the exposure value is increased by decreasing the aperture value or the ISO value of the image sensor is increased, the exposure amount falls within an appropriate range.
[0040]
Therefore, as shown in FIG. 4B, the display unit 46 warns by blinking the display of the set aperture value and ISO value, and displays the recommended aperture value 11 and the recommended ISO value 200. Thereafter, for example, when the ISO value of the image sensor of the digital camera is changed to 200 or more (200 in this example), the digital camera transmits the changed ISO value to the electronic flash device 30. Then, as shown in FIG. 4C, the display of the recommended ISO value and the recommended aperture value disappears.
[0041]
In the present embodiment, the light emission amount is not displayed. This is to reduce the possibility that the user will be wondering which parameter to view because too much information is displayed. Accordingly, only the information necessary for calculating the appropriate guide number and the light emission possible range (ISO value, aperture value, focal length, shooting distance, dimming correction value) is displayed.
FIG. 5 shows another display example of the display unit 46. FIG. 5A shows a case where an ISO value of 100, an aperture value of 2.8, a focal length of 35 millimeters, and a shooting distance of 0.5 meters are input. At this time, the light emission amount calculation unit 44 calculates an appropriate guide number 1.4. For example, the minimum guide number under this condition is 1, the electronic flash device 30 is used together with a film camera, a dimming correction value of −2.0 is input, and the light emission amount calculation unit 44 sets the appropriate guide number to 0. Suppose you change to .7. In this case, if the minimum guide number 1 emits light, the exposure becomes excessive, but if the aperture value is increased to reduce the exposure amount, the exposure amount falls within an appropriate range.
[0042]
Accordingly, as shown in FIG. 5B, the display unit 46 warns by blinking the display of the set aperture value, and also displays the recommended aperture value 4 on the right side thereof. Thereafter, for example, when the user changes the aperture value to 4 or more (4 in this example), the recommended aperture value disappears as shown in FIG. 5C.
<< Effects of First Embodiment / Differences from Conventional Operating Mechanism >>
In the conventional light amount selection manual mode, the user selects a light emission amount and displays an appropriate shooting distance at the selected light emission amount. For this reason, when the light adjustment correction value is input after the light emission amount is selected, the display of the appropriate shooting distance is also switched in conjunction with the change in the light emission amount.
[0043]
Therefore, in this embodiment, a distance selection manual mode of an operation mechanism different from the conventional one has been proposed. That is, the user selects the shooting distance instead of the light emission amount (step 5), obtains an appropriate guide number according to the shooting distance (step 6), and emits light with the appropriate guide number (step 11). Therefore, after setting the ISO value, aperture value, and focal length, the user can illuminate the subject with an appropriate amount of light simply by inputting the shooting distance. Accordingly, even a user who does not have knowledge about the light amount such as the guide number or 1/2 light emission can easily set the appropriate light emission amount.
[0044]
As shown in FIGS. 4 and 5, after the shooting distance is selected, the display unit 46 displays the selected shooting distance regardless of whether or not the dimming correction value is input and whether the appropriate guide number is within the light emission possible range. Continue to display. Accordingly, the display of the shooting distance is changed as in the conventional light quantity selection manual mode, so that the user is not confused or misunderstood to change the shooting distance to a newly displayed distance.
[0045]
The appropriate guide number was changed in accordance with the input dimming correction value (step 7). For this reason, the light emission amount can be adjusted so that the exposure amount is over or under the normal appropriate exposure amount according to the photographing conditions.
When the proper guide number exceeds the maximum guide number, a recommended aperture value that makes the proper guide number equal to the maximum guide number is displayed (step 12). Similarly, when the appropriate guide number is smaller than the minimum guide number, the recommended aperture value is displayed so that the appropriate guide number is equal to the minimum guide number. For this reason, the user can easily recognize how the setting can be changed and the light emission amount can be within the light emission possible range with the minimum change amount.
[0046]
When the appropriate guide number exceeds the maximum guide number, a recommended ISO value for increasing the maximum guide number to the appropriate guide number was obtained (step 12). Similarly, when the appropriate guide number is smaller than the minimum guide number, the recommended ISO value for lowering the minimum guide number to the appropriate guide number was obtained. For this reason, the user can enable light emission with the appropriate guide number obtained before the change only by changing the ISO value to the recommended ISO value.
[0047]
The light emission control unit 48 approximated the angle of view of the photographing lens on the camera side according to the focal length, and adjusted the light distribution angle of the light emitting unit 34 to be slightly larger than the angle of view (step 6). For this reason, light is irradiated only to a portion that is substantially within the angle of view. Therefore, the amount of light irradiated per unit solid angle (maximum guide number) can be maximized according to the angle of view.
[0048]
<< Configuration and Operation of Second Embodiment >>
Next, a second embodiment of the electronic flash device of the present invention will be described. . Book The embodiment has the same configuration as that of the first embodiment except that the operations of the light emission amount calculation unit, the setting unit, and the display unit are different. For this reason, the description and drawings regarding the configuration of the present embodiment are omitted. In order to distinguish from the first embodiment, the electronic flash device in this embodiment is represented as 30B, the setting unit is represented as 42b, the light emission amount computing unit is represented as 44b, and the display unit 46b.
[0049]
FIG. 6 is a flowchart showing the operation of the electronic flash device 30B of this embodiment. The same processing parts as those in the first embodiment are denoted by the same step numbers, and description of these processes is omitted. The electronic flash device 30B according to the present embodiment operates in the same manner as the first embodiment except that the process of step 17 described below is performed instead of the process of steps 12 and 13 of the first embodiment. To do.
[0050]
[Step 17] This is processing when the appropriate guide number is outside the light-emitting range in step 8. The light emission amount calculation unit 44b performs calculation processing separately in the following cases (1) to (4) (corresponding to the recommended value calculation in the claims), and the setting unit 42b and the display unit 46b include a light emission amount calculation unit. It operates according to the processing of 44b.
(1) When the camera is a film camera and the appropriate guide number is greater than the maximum guide number
The light emission amount calculation unit 44b obtains an aperture value at which the appropriate guide number is equal to the maximum guide number as the recommended aperture value, and transmits the aperture value to the setting unit 42. The setting unit 42 changes the aperture value to the transmitted recommended aperture value, and transmits the changed aperture value to the display unit 46b. The display unit 46b displays the changed aperture value in a blinking manner (the aperture value before the change is not displayed). In addition, the light emission amount calculation unit 44b changes the aperture value to the recommended aperture value, and changes the appropriate guide number to the same value as the maximum guide number. The light emission amount calculation unit 44 b transmits the changed appropriate guide number to the light emission control unit 48.
[0051]
(2) When the camera is a film camera and the appropriate guide number is smaller than the minimum guide number
The light emission amount calculation unit 44b obtains an aperture value at which the appropriate guide number is equal to the minimum guide number as a recommended aperture value, and transmits the aperture value to the setting unit 42b. The setting unit 42b changes the aperture value to the transmitted recommended aperture value, and transmits the changed aperture value to the display unit 46b. The display unit 46b displays the changed aperture value in a blinking manner. In addition, the light emission amount calculation unit 44b changes the aperture value to the recommended aperture value, and changes the appropriate guide number to the same value as the minimum guide number. The light emission amount calculation unit 44 b transmits the changed appropriate guide number to the light emission control unit 48.
[0052]
(3) When the camera is a digital camera and the appropriate guide number is greater than the maximum guide number
The light emission amount calculating unit 44b obtains an ISO value that makes the maximum guide number equal to the appropriate guide number as a recommended ISO value, and transmits it to the setting unit 42b. The setting unit 42b changes the ISO value to the transmitted recommended ISO value, and transmits the changed ISO value to the display unit 46b. The display unit 46b displays the changed ISO value in a blinking manner (the ISO value before the change is not displayed). In addition, the light emission amount calculation unit 44b changes the ISO value to the recommended ISO value, and changes the maximum guide number to the same value as the appropriate guide number. The light emission amount calculation unit 44 b transmits an appropriate guide number to the light emission control unit 48.
[0053]
(4) When the camera is a digital camera and the appropriate guide number is smaller than the minimum guide number
The light emission amount calculation unit 44b obtains an ISO value that makes the minimum guide number equal to the appropriate guide number as a recommended ISO value, and transmits it to the setting unit 42b. The setting unit 42b changes the ISO value to the transmitted recommended ISO value, and transmits the changed ISO value to the display unit 46b. The display unit 46b blinks and displays the changed ISO value. In addition, the light emission amount calculation unit 44b changes the ISO value to the recommended ISO value, and changes the minimum guide number to the same value as the appropriate guide number. The light emission amount calculation unit 44 b transmits an appropriate guide number to the light emission control unit 48.
[0054]
<< Display Example of Second Embodiment >>
FIG. 7 shows a display example of the display unit 46b. FIG. 7A shows a case where an ISO value of 100, an aperture value of 2, and a focal length of 35 millimeters are transmitted from a digital camera and a shooting distance of 1 meter is input. At this time, the light emission amount calculation unit 44b calculates the appropriate guide number 2. For example, it is assumed that the minimum guide number under this condition is 1, and then −3.0 is input as the dimming correction value. In this case, as shown in FIG. 4B, the display unit 46 warns by blinking the ISO value 50 almost simultaneously with the input of the light adjustment correction value. As a result, the user is informed that if the ISO value of the digital camera is changed to 50, light emission that provides an appropriate exposure amount can be implemented.
[0055]
FIG. 8 shows another display example of the display unit 46b. FIG. 8A shows a case where an ISO value of 100, an aperture value of 2, a focal length of 35 millimeters, and a shooting distance of 16.0 meters are input. At this time, the light emission amount calculation unit 44b calculates the appropriate guide number 32. For example, it is assumed that the maximum guide number under this condition is 32, the electronic flash device is used with a film camera, and a light adjustment correction value +1.0 is input. In this case, as shown in FIG. 8B, the display unit 46b gives a warning by blinking the aperture value 1.4 almost simultaneously with the input of the dimming correction value. Thus, the user is informed that if the aperture value of the film camera is changed to 1.4, light emission that provides an appropriate exposure amount can be performed.
[0056]
<< Effect of Second Embodiment >>
As mentioned above, also in 2nd Embodiment, the effect similar to 1st Embodiment mentioned above can be acquired. Furthermore, in this embodiment, when the appropriate guide number is out of the light emission possible range, the light emission amount calculation unit 44b and the setting unit 42b automatically set the aperture value (or ISO value) to the recommended aperture value (or recommended ISO value). The display unit 46b displayed the changed aperture value (or ISO value) in a blinking manner. For this reason, since the user does not need to change the setting of the electronic flash device 30b after changing the aperture value (or ISO value) on the camera side to the blinking value, the user can perform photographing with a small operation amount.
[0057]
<< Additional items of the present invention >>
In the above-described first embodiment, the example in which both the input aperture value (or transmitted from the camera side) and the recommended aperture value are displayed has been described. The present invention is not limited to such an embodiment. For example, both may be blinked alternately. The same applies to the display of the ISO value.
[0058]
In the first and second embodiments described above, the example in which the light emission amount is not displayed has been described. The present invention is not limited to such an embodiment. The amount of light emission may be displayed.
In the first and second embodiments described above, the example in which the photographing distance and the dimming correction value are selected from a plurality of preset values has been described. The present invention is not limited to such an embodiment. The user may input an arbitrary value as an ISO value, an aperture value, a focal length, a shooting distance, or a dimming correction value.
[0059]
In the first and second embodiments described above, an example in which the electronic flash device 30 (30B) performs data communication with the camera by being connected to the camera has been described. The present invention is not limited to such an embodiment. The electronic flash device 30 (30B) may perform data communication with the camera side using radio waves or the like.
In the first and second embodiments described above, the setting unit 42 (42b) acquires focal length information, and the light emission control unit 48 and the light emission amount calculation unit 44 (44b) determine the angle of view of the photographic lens of the camera from the focal length. An example of estimating is given. The present invention is not limited to such an embodiment. For example, the angle of view of the photographic lens may be obtained more accurately from the focal length and the distance of the subject focused by the camera. Or the form which inputs or acquires the angle of view of a photographic lens directly may be sufficient.
[0060]
In the first and second embodiments described above, the example in which the light distribution angle of the light emitting unit 34 is slightly larger than the angle of view of the photographing lens has been described. The present invention is not limited to such an embodiment. The light distribution angle of the light emitting unit 34 may be equal to the angle of view. When the calculated appropriate guide number is smaller than the minimum guide number, the minimum guide number may be further reduced by making the light distribution angle larger than the angle of view.
[0061]
In the first embodiment described above, an example in which a warning is displayed by blinking the display of the set aperture value (ISO value) and a recommended value is displayed will be described. In the second embodiment, the set aperture value ( An example of warning by turning off the display of the (ISO value) and flashing the recommended value was described. The present invention is not limited to such an embodiment. For example, a warning may be given by notifying the recommended value “Please change the aperture value to 11” by voice.
[0062]
In the second embodiment described above, the example in which the aperture value, ISO value, shooting distance, and the like are displayed on the display unit has been described. The present invention is not limited to such an embodiment. For example, the display unit may be omitted by selecting the shooting distance with the dial and notifying the aperture value (ISO value) after the change when the appropriate guide number is outside the light-emitting range. .
[0063]
【The invention's effect】
In the electronic flash device of the present invention, the user inputs the shooting distance, and the appropriate light emission amount is obtained according to the shooting distance. Accordingly, even a user who does not have knowledge about the light amount such as the guide number or 1/2 light emission can easily set the appropriate light emission amount.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first embodiment of an electronic flash device of the present invention.
FIG. 2 is a front view showing details of a setting unit and a display unit in FIG.
FIG. 3 is a flowchart showing the operation of the electronic flash device in the first embodiment.
FIG. 4 is an explanatory diagram illustrating a display example of a display unit in the first embodiment.
FIG. 5 is an explanatory diagram showing another display example of the display unit in the first embodiment.
FIG. 6 is a flowchart showing the operation of the electronic flash device in the second embodiment.
FIG. 7 is an explanatory diagram illustrating a display example of a display unit in the second embodiment.
FIG. 8 is an explanatory diagram showing another display example of the display unit in the second embodiment.
FIG. 9 is a flowchart showing an example of an operation in a light amount selection manual mode.
FIG. 10 is an explanatory diagram showing a display example of a display window in a light amount selection manual mode.
[Explanation of symbols]
28 Display window
30, 30B electronic flash device
32 Body
34 Light emitting part
36 Rotating shaft
40 Communication Department
42, 42b setting section
44, 44b Light emission amount calculation unit
46, 46b Display section
48 Light emission controller
50 shoe contacts
52 Operation button group
54 Xenon tube
56 Light distribution angle adjustment section
58 bounce angle display
62 Mode button
64 selection buttons
66 Plus button
68 Minus button

Claims (6)

A light emitting unit for irradiating the subject with light;
A setting unit having a first input unit for inputting an imaging distance and a second input unit for inputting a dimming correction value for dimming or dimming ;
An appropriate light emission amount that gives an appropriate exposure according to the photographing distance input by the first input unit is obtained, and the dimming correction is performed when the dimming correction value is input by the second input unit. A light emission amount calculation unit that changes the appropriate light emission amount based on a value ;
A light emission control unit for causing the light emitting unit to emit light with the changed appropriate light emission amount ;
Even when the appropriate light emission amount is changed by the light adjustment correction value, the appropriate shooting distance based on the changed proper light emission amount is not displayed, and the shooting distance input by the first input unit is displayed. A distance display that keeps displaying
Electronic flash device which is characterized in that comprises a. A light emitting unit for irradiating the subject with light;
A setting unit having a first input unit for inputting an imaging distance and a second input unit for inputting a dimming correction value for dimming or dimming ;
Rutotomoni determine the proper amount of light emission to provide a proper exposure according to the photographing distance input by the first input means, dimming when the dimming correction value is input by said second input means When the appropriate light emission amount is changed using a correction value and the changed appropriate light emission amount is out of the light emission possible range of the light emitting unit, the changed appropriate light emission amount is within the light emission possible range. A light emission amount calculation unit for calculating a recommended value to obtain the aperture value as a recommended aperture value;
A light emission control unit that causes the light emitting unit to emit light with an appropriate light emission amount re-changed within the light emission possible range by the recommended value calculation ;
A warning display for displaying the recommended aperture value as a warning ;
As a result of the recommended value calculation, even if the changed appropriate light emission amount is changed again within the light emission possible range, the appropriateness based on the appropriate correction amount changed again within the light emission possible range. A distance display unit that continues to display the shooting distance input by the first input means without displaying the shooting distance;
Electronic flash device which is characterized in that comprises a. A light emitting unit for irradiating the subject with light;
A setting unit having a first input unit for inputting an imaging distance and a second input unit for inputting a dimming correction value for dimming or dimming ;
Rutotomoni determine the proper amount of light emission to provide a proper exposure according to the photographing distance input by the first input means, when the flash exposure compensation value is inputted by said second input means,該調When the appropriate light emission amount is changed using a light correction value, and the changed appropriate light emission amount is out of the light emission possible range of the light emitting unit, the changed appropriate light emission amount is within the light emission possible range. A light emission amount calculation unit that performs a recommended value calculation to obtain the imaging sensitivity of
A light emission control unit that causes the light emitting unit to emit light with an appropriate light emission amount re-changed within the light emission possible range by the recommended value calculation ;
A display for displaying the recommended imaging sensitivity as a warning ;
As a result of the recommended value calculation, even if the changed appropriate light emission amount is changed again within the light emission possible range, the appropriateness based on the appropriate correction amount changed again within the light emission possible range. A distance display unit that continues to display the shooting distance input by the first input means without displaying the shooting distance;
Electronic flash device which is characterized in that comprises a. A light emitting unit for irradiating the subject with light;
A first input means for inputting an imaging distance, and a dimming correction for increasing or decreasing light , having at least one of an aperture value input means on the camera side and a means for acquiring the aperture value from the camera side; A setting unit having second input means for inputting a value ;
When prior Symbol aperture value and that Rutotomoni seek adequate emission amount to provide a proper exposure according to the object distance, the dimming correction value by said second input means is input, the dimming correction value When the appropriate light emission amount changed by the dimming correction value is out of the light emission possible range of the light emitting unit, the appropriate light emission amount changed by the dimming correction value is A recommended value calculation for obtaining the aperture value within a possible range as a recommended aperture value is performed, the aperture value of the setting unit is changed to the recommended aperture value, and is changed by the dimming correction value according to the recommended aperture value A light emission amount calculation unit for changing again the appropriate light emission amount,
A light emission control unit that causes the light emitting unit to emit light with an appropriate light emission amount re-changed according to the recommended aperture value ;
Even when the appropriate light emission amount is changed again in accordance with the recommended aperture value, the appropriate shooting distance based on the changed correct correction amount is not displayed, and is input by the first input means. A distance display that keeps displaying the shooting distance,
Electronic flash device which is characterized in that comprises a. A light emitting unit for irradiating the subject with light;
It has at least one of an imaging sensitivity input unit on the camera side and a unit for acquiring the imaging sensitivity from the camera side, a first input unit for inputting a shooting distance, and a dimming correction for increasing or decreasing light A setting unit having second input means for inputting a value ;
When prior SL imaging sensitivity and to Rutotomoni seek adequate emission amount to provide a proper exposure according to the object distance, the dimming correction value by said second input means is input, the dimming correction value the changes the proper amount of light emission, if the proper light emitting amount changed by the dimming correction value is deviated from the light emitting range of the light emitting portion, adequate emission amount changed by the dimming correction value above using The recommended value calculation for obtaining the imaging sensitivity within the light emission possible range as the recommended imaging sensitivity is performed, the imaging sensitivity of the setting unit is changed to the recommended imaging sensitivity, and the dimming correction value according to the recommended imaging sensitivity a light emission amount calculating unit for re-modify the modified adequate emission amount,
A light emission control unit that causes the light emitting unit to emit light with an appropriate light emission amount re-changed according to the recommended aperture value ;
Even when the appropriate light emission amount is changed again in accordance with the recommended aperture value, the appropriate shooting distance based on the changed correct correction amount is not displayed, and is input by the first input means. A distance display that keeps displaying the shooting distance,
Electronic flash device which is characterized in that comprises a. The electronic flash device according to any one of claims 2 to 5 ,
The setting unit includes at least one of an input unit for information related to the angle of view of the photographing lens on the camera side, and a unit for acquiring information related to the angle of view.
The light emission control unit adjusts a light distribution angle of light emission of the light emitting unit according to the angle of view, and the recommended value calculation is performed according to the light emission possible range determined by the light distribution angle. An electronic flash device.

Images