427 lines
15 KiB
Go
427 lines
15 KiB
Go
package circuit_sys
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import (
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"log/slog"
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"joylink.club/ecs"
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"joylink.club/ecs/filter"
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"joylink.club/rtsssimulation/component"
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"joylink.club/rtsssimulation/consts"
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)
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// ZDJ9双机牵引道岔电路系统
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type ZDJ9TwoDragSys struct {
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query *ecs.Query
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}
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func NewZdj9TwoDragSys() *ZDJ9TwoDragSys {
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return &ZDJ9TwoDragSys{
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query: ecs.NewQuery(filter.Contains(
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component.Zdj9TwoElectronicType,
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component.Zdj9TwoDriveType,
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component.Zdj9TwoCollectType,
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component.TurnoutZzjType)),
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}
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}
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// 电路更新
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func (zdj9 *ZDJ9TwoDragSys) Update(w ecs.World) {
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zdj9.query.Each(w, func(entry *ecs.Entry) {
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elec := component.Zdj9TwoElectronicType.Get(entry)
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drive := component.Zdj9TwoDriveType.Get(entry)
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collect := component.Zdj9TwoCollectType.Get(entry)
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zdj9.exciteDriveElectronic(elec, drive)
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// 转辙机一机电路相关动作
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// 1DQJ励磁状态控制
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zdj9.exciteM1_TDFJ_1DQJ(elec)
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// 1DQJF励磁状态控制
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zdj9.exciteM1_TDFJ_1DQJF(elec)
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// TDFJ1_2DQJ励磁状态控制
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zdj9.exciteM1_TDFJ_2DQJ(elec)
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// 限时断相保护器
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zdj9.exciteM1_TDFJ_DBQ(w, entry, elec)
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// TDFJ1_BHJ励磁状态控制
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zdj9.exciteM1_TDFJ_BHJ(elec)
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// 总保护继电器
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zdj9.exciteM1_TDFJ_ZBHJ(elec)
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// 切断继电器
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zdj9.exciteM1_TDFJ_QDJ(w, entry, elec)
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// 定表/反表继电器
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zdj9.exciteM1_TDFJ1_DFBJ(entry, elec)
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// 转辙机二机电路相关动作
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// 1DQJ励磁状态控制
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zdj9.exciteM2_TDFJ_1DQJ(elec)
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// 1DQJF励磁状态控制
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zdj9.exciteM2_TDFJ_1DQJF(elec)
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// TDFJ1_2DQJ励磁状态控制
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zdj9.exciteM2_TDFJ_2DQJ(elec)
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// 限时断相保护器
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zdj9.exciteM2_TDFJ_DBQ(w, entry, elec)
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// TDFJ1_BHJ励磁状态控制
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zdj9.exciteM2_TDFJ_BHJ(elec)
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// 定表/反表继电器
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zdj9.exciteM2_TDFJ1_DFBJ(entry, elec)
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// 总定表/反表继电器
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zdj9.exciteZDFBJ(elec)
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zdj9.exciteCollectElectronic(elec, collect)
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})
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}
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// 处理采集电路状态
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func (zdj9 *ZDJ9TwoDragSys) exciteCollectElectronic(elec *component.Zdj9TwoElectronic, collect *component.Zdj9TwoCollect) {
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zdbj := component.BitStateType.Get(elec.TDC_ZDBJ)
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zfbj := component.BitStateType.Get(elec.TDC_ZFBJ)
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ycj := component.BitStateType.Get(elec.TDC_YCJ)
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tdfj1_dbj := component.BitStateType.Get(elec.TDFJ1_DBJ)
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tdfj1_fbj := component.BitStateType.Get(elec.TDFJ1_FBJ)
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tdfj2_dbj := component.BitStateType.Get(elec.TDFJ2_DBJ)
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tdfj2_fbj := component.BitStateType.Get(elec.TDFJ2_FBJ)
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collect.TDC_ZDBJ_XQ = zdbj.Val
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collect.TDC_ZFBJ_XQ = zfbj.Val
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collect.TDC_YCJ_XQ = ycj.Val
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collect.TDC_ZDBJ_ZFBJ_LX = !zdbj.Val && !zfbj.Val
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collect.TDFJ1_DBJ_XQ = tdfj1_dbj.Val
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collect.TDFJ1_FBJ_XQ = tdfj1_fbj.Val
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collect.TDFJ2_DBJ_XQ = tdfj2_dbj.Val
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collect.TDFJ2_FBJ_XQ = tdfj2_fbj.Val
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}
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// 处理驱动电路励磁相关继电器
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func (zdj9 *ZDJ9TwoDragSys) exciteDriveElectronic(elec *component.Zdj9TwoElectronic, driveElec *component.Zdj9TwoDrive) {
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dcj_drive := component.RelayDriveType.Get(elec.TDC_DCJ)
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fcj_drive := component.RelayDriveType.Get(elec.TDC_FCJ)
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ycj_drive := component.RelayDriveType.Get(elec.TDC_YCJ)
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if dcj_drive.Td != driveElec.DCJ {
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dcj_drive.Td = driveElec.DCJ
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}
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if fcj_drive.Td != driveElec.FCJ {
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fcj_drive.Td = driveElec.FCJ
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}
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if ycj_drive.Td != driveElec.YCJ {
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ycj_drive.Td = driveElec.YCJ
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}
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}
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// 总定表、反表继电器控制
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func (zdj9 *ZDJ9TwoDragSys) exciteZDFBJ(elec *component.Zdj9TwoElectronic) {
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tdfj1_dbj := component.BitStateType.Get(elec.TDFJ1_DBJ)
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tdfj2_dbj := component.BitStateType.Get(elec.TDFJ2_DBJ)
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tdfj1_fbj := component.BitStateType.Get(elec.TDFJ1_FBJ)
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tdfj2_fbj := component.BitStateType.Get(elec.TDFJ2_FBJ)
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zdbj_drive := component.RelayDriveType.Get(elec.TDC_ZDBJ)
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zfbj_drive := component.RelayDriveType.Get(elec.TDC_ZFBJ)
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// 总定表
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if zdbj_drive.Td { // 总定表继电器通电,监测电路是否断开
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if !(tdfj1_dbj.Val && tdfj2_dbj.Val) {
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zdbj_drive.Td = false
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}
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} else {
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if tdfj1_dbj.Val && tdfj2_dbj.Val {
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zdbj_drive.Td = true
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}
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}
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// 总反表
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if zfbj_drive.Td {
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if !(tdfj1_fbj.Val && tdfj2_fbj.Val) {
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zfbj_drive.Td = false
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}
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} else {
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if tdfj1_fbj.Val && tdfj2_fbj.Val {
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zfbj_drive.Td = true
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}
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}
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}
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// 二极管整流电路为继电器励磁电路提供半波整流电源
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// 转辙机一定表/反表继电器控制
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func (zdj9 *ZDJ9TwoDragSys) exciteM1_TDFJ1_DFBJ(entry *ecs.Entry, elec *component.Zdj9TwoElectronic) {
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_1dqj := component.BitStateType.Get(elec.TDFJ1_1DQJ)
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_2dqj := component.BitStateType.Get(elec.TDFJ1_2DQJ)
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zzj := component.GetTurnoutZzj1State(entry)
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dbj_drive := component.RelayDriveType.Get(elec.TDFJ1_DBJ)
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fbj_drive := component.RelayDriveType.Get(elec.TDFJ1_FBJ)
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zdj9.exciteDFBJ(_1dqj, _2dqj, zzj, dbj_drive, fbj_drive)
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}
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// 转辙机二定表/反表继电器控制
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func (zdj9 *ZDJ9TwoDragSys) exciteM2_TDFJ1_DFBJ(entry *ecs.Entry, elec *component.Zdj9TwoElectronic) {
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_1dqj := component.BitStateType.Get(elec.TDFJ2_1DQJ)
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_2dqj := component.BitStateType.Get(elec.TDFJ2_2DQJ)
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zzj := component.GetTurnoutZzj2State(entry)
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dbj_drive := component.RelayDriveType.Get(elec.TDFJ2_DBJ)
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fbj_drive := component.RelayDriveType.Get(elec.TDFJ2_FBJ)
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zdj9.exciteDFBJ(_1dqj, _2dqj, zzj, dbj_drive, fbj_drive)
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}
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// 定反表励磁控制
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func (zdj9 *ZDJ9TwoDragSys) exciteDFBJ(_1dqj *component.BitState, _2dqj *component.BitState, zzj *component.ZzjState,
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dbj_drive *component.RelayDrive, fbj_drive *component.RelayDrive) {
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// 默认BB(道岔表示变压器)正常
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if !dbj_drive.Td { // 定表继电器未通电
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if !_1dqj.Val && _2dqj.Val && !zzj.JD12 && !zzj.JD34 { // 1DQJ落下,2DQJ定位,开闭器接点在1/3排
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dbj_drive.Td = true
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}
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} else { // 定表继电器通电
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if !(!_1dqj.Val && _2dqj.Val && !zzj.JD12 && !zzj.JD34) { // 励磁电路断开
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dbj_drive.Td = false
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}
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}
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if !fbj_drive.Td { // 反表继电器未通电
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if !_1dqj.Val && !_2dqj.Val && zzj.JD12 && zzj.JD34 { // 2DQJ反位,开闭器在2/4排
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fbj_drive.Td = true
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}
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} else { // 反表继电器通电
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if !(!_1dqj.Val && !_2dqj.Val && zzj.JD12 && zzj.JD34) { // 电路断开
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fbj_drive.Td = false
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}
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}
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}
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// 切断继电器控制
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func (zdj9 *ZDJ9TwoDragSys) exciteM1_TDFJ_QDJ(w ecs.World, entry *ecs.Entry, elec *component.Zdj9TwoElectronic) {
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tdfj1_bhj := component.BitStateType.Get(elec.TDFJ1_BHJ)
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tdfj2_bhj := component.BitStateType.Get(elec.TDFJ2_BHJ)
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tdfj1_zbhj := component.BitStateType.Get(elec.TDFJ1_ZBHJ)
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tdfj1_qdj := component.BitStateType.Get(elec.TDFJ1_QDJ)
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drive := component.RelayDriveType.Get(elec.TDFJ1_QDJ)
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if !tdfj1_qdj.Val { // 落下状态
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if !drive.Td && (!tdfj1_bhj.Val && !tdfj2_bhj.Val) || tdfj1_zbhj.Val { // 电路导通
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drive.Td = true
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elec.TDFJ1_QDJ_Remain = consts.QDJ_DELAY
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slog.Debug("切断继电器通电")
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}
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} else { // 吸起状态
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if drive.Td && !tdfj1_zbhj.Val && !(!tdfj1_bhj.Val && !tdfj2_bhj.Val) { // 电路断开
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// 延时电路
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if elec.TDFJ1_QDJ_Remain > 0 {
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remain := elec.TDFJ1_QDJ_Remain - w.Tick()
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if remain <= 0 {
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elec.TDFJ1_QDJ_Remain = 0
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drive.Td = false
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slog.Debug("切断继电器断电")
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} else {
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elec.TDFJ1_QDJ_Remain = remain
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}
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}
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}
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}
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}
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// 总保护继电器控制
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func (zdj9 *ZDJ9TwoDragSys) exciteM1_TDFJ_ZBHJ(elec *component.Zdj9TwoElectronic) {
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tdfj1_bhj := component.BitStateType.Get(elec.TDFJ1_BHJ)
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tdfj2_bhj := component.BitStateType.Get(elec.TDFJ2_BHJ)
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tdfj1_zbhj := component.RelayDriveType.Get(elec.TDFJ1_ZBHJ)
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if !tdfj1_zbhj.Td { // 未通电
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if tdfj1_bhj.Val && tdfj2_bhj.Val { // 励磁电路导通
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tdfj1_zbhj.Td = true
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}
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} else { // 通电
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if !tdfj1_bhj.Val && !tdfj2_bhj.Val { // 励磁电路断开
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tdfj1_zbhj.Td = false
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}
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}
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}
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// 转辙机一断相保护器控制
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func (zdj9 *ZDJ9TwoDragSys) exciteM1_TDFJ_DBQ(w ecs.World, entry *ecs.Entry, elec *component.Zdj9TwoElectronic) {
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_1dqj := component.BitStateType.Get(elec.TDFJ1_1DQJ)
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_1dqjf := component.BitStateType.Get(elec.TDFJ1_1DQJF)
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_2dqj := component.BitStateType.Get(elec.TDFJ1_2DQJ)
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zzj := component.GetTurnoutZzj1State(entry)
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dbq := component.DBQStateType.Get(elec.TDFJ1_DBQ)
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zdj9.exciteDBQ(1, _1dqj, _1dqjf, _2dqj, dbq, zzj)
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}
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// 转辙机二断相保护器控制
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func (zdj9 *ZDJ9TwoDragSys) exciteM2_TDFJ_DBQ(w ecs.World, entry *ecs.Entry, elec *component.Zdj9TwoElectronic) {
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_1dqj := component.BitStateType.Get(elec.TDFJ2_1DQJ)
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_1dqjf := component.BitStateType.Get(elec.TDFJ2_1DQJF)
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_2dqj := component.BitStateType.Get(elec.TDFJ2_2DQJ)
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zzj := component.GetTurnoutZzj2State(entry)
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dbq := component.DBQStateType.Get(elec.TDFJ2_DBQ)
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zdj9.exciteDBQ(2, _1dqj, _1dqjf, _2dqj, dbq, zzj)
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}
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// 断相保护器控制
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// i - 几号转辙机(1/2)
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func (zdj9 *ZDJ9TwoDragSys) exciteDBQ(i int, _1dqj *component.BitState, _1dqjf *component.BitState, _2dqj *component.BitState,
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dbq *component.DBQState, zzj *component.ZzjState) {
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if dbq.Td { // 通电
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if !(_1dqj.Val && _1dqjf.Val && !zzj.JD12 && !_2dqj.Val) &&
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!(_1dqj.Val && _1dqjf.Val && zzj.JD34 && _2dqj.Val) { // 断开
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dbq.Td = false
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zzj.Td = false
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slog.Debug("转辙机%v断电\n", i)
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} else { // 处理正反转
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if zzj.Dw && !_2dqj.Val {
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zzj.Dw = false
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slog.Debug("转辙机%v转到反位\n", i)
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} else if !zzj.Dw && _2dqj.Val {
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zzj.Dw = true
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slog.Debug("转辙机%v转到定位\n", i)
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}
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}
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} else { // 未通电
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if _1dqj.Val && _1dqjf.Val && ((!zzj.JD12 && !_2dqj.Val) || (zzj.JD34 && _2dqj.Val)) { // 通电
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dbq.Td = true
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zzj.Td = true
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slog.Debug("转辙机%v通电\n", i)
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}
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}
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}
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// 转辙机一TDFJ_BHJ保护继电器励磁状态控制
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func (zdj9 *ZDJ9TwoDragSys) exciteM1_TDFJ_BHJ(elec *component.Zdj9TwoElectronic) {
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dbq := component.DBQStateType.Get(elec.TDFJ1_DBQ)
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bhj := component.RelayDriveType.Get(elec.TDFJ1_BHJ)
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zdj9.exciteBHJ(dbq, bhj)
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}
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// 转辙机二TDFJ_BHJ保护继电器励磁状态控制
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func (zdj9 *ZDJ9TwoDragSys) exciteM2_TDFJ_BHJ(elec *component.Zdj9TwoElectronic) {
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dbq := component.DBQStateType.Get(elec.TDFJ2_DBQ)
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bhj := component.RelayDriveType.Get(elec.TDFJ2_BHJ)
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zdj9.exciteBHJ(dbq, bhj)
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}
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// 保护继电器励磁控制
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func (zdj9 *ZDJ9TwoDragSys) exciteBHJ(dbq *component.DBQState, bhj *component.RelayDrive) {
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if !bhj.Td && dbq.Dzkg { // BHJ励磁电路导通
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bhj.Td = true
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} else if bhj.Td && !dbq.Dzkg { // BHJ励磁电路断开
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bhj.Td = false
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}
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}
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// 转辙机一TDFJ_1DQJF励磁电路逻辑
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func (zdj9 *ZDJ9TwoDragSys) exciteM1_TDFJ_1DQJF(elec *component.Zdj9TwoElectronic) {
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tdfj_1dqj := component.BitStateType.Get(elec.TDFJ1_1DQJ)
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tdfj_1dqjf_drive := component.RelayDriveType.Get(elec.TDFJ1_1DQJF)
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zdj9.excite1DQJF(tdfj_1dqj, tdfj_1dqjf_drive)
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}
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// 转辙机二TDFJ_1DQJF励磁电路逻辑
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func (zdj9 *ZDJ9TwoDragSys) exciteM2_TDFJ_1DQJF(elec *component.Zdj9TwoElectronic) {
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tdfj_1dqj := component.BitStateType.Get(elec.TDFJ2_1DQJ)
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tdfj_1dqjf_drive := component.RelayDriveType.Get(elec.TDFJ2_1DQJF)
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zdj9.excite1DQJF(tdfj_1dqj, tdfj_1dqjf_drive)
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}
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// 1DQJF励磁控制
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func (zdj9 *ZDJ9TwoDragSys) excite1DQJF(_1dqj *component.BitState, _1dqjf_drive *component.RelayDrive) {
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if _1dqjf_drive.Td { // 通电
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if !_1dqj.Val {
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_1dqjf_drive.Td = false
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}
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} else { // 未通电
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if _1dqj.Val {
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_1dqjf_drive.Td = true
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}
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}
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}
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// 转辙机一TDFJ_1DQJ励磁电路逻辑
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func (zdj9 *ZDJ9TwoDragSys) exciteM1_TDFJ_1DQJ(elec *component.Zdj9TwoElectronic) {
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// 暂时先实现非应急按钮操作
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ycj := component.BitStateType.Get(elec.TDC_YCJ)
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dcj := component.BitStateType.Get(elec.TDC_DCJ)
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fcj := component.BitStateType.Get(elec.TDC_FCJ)
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tdfj1_1dqj := component.BitStateType.Get(elec.TDFJ1_1DQJ)
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tdfj1_2dqj := component.BitStateType.Get(elec.TDFJ1_2DQJ)
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bhj := component.BitStateType.Get(elec.TDFJ1_BHJ)
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qdj := component.BitStateType.Get(elec.TDFJ1_QDJ)
|
||
drive := component.RelayDriveType.Get(elec.TDFJ1_1DQJ)
|
||
if drive.Td { // 通电
|
||
// 判定是否所有励磁电路断开(todo 暂不考虑应急按钮)
|
||
if !(qdj.Val && bhj.Val) && !(ycj.Val && ((tdfj1_2dqj.Val && fcj.Val) || (!tdfj1_2dqj.Val && dcj.Val))) { // 电路断开
|
||
drive.Td = false
|
||
slog.Debug("TDFJ1_1DQJ断电")
|
||
}
|
||
} else { // 未通电
|
||
if (ycj.Val && ((tdfj1_2dqj.Val && fcj.Val) || (!tdfj1_2dqj.Val && dcj.Val))) ||
|
||
(tdfj1_1dqj.Val && qdj.Val && bhj.Val) { // 电路导通
|
||
drive.Td = true
|
||
slog.Debug("TDFJ1_1DQJ通电")
|
||
}
|
||
}
|
||
}
|
||
|
||
// 转辙机二TDFJ_1DQJ励磁电路逻辑
|
||
func (zdj9 *ZDJ9TwoDragSys) exciteM2_TDFJ_1DQJ(elec *component.Zdj9TwoElectronic) {
|
||
// 暂时先实现非应急按钮操作
|
||
ycj := component.BitStateType.Get(elec.TDC_YCJ)
|
||
dcj := component.BitStateType.Get(elec.TDC_DCJ)
|
||
fcj := component.BitStateType.Get(elec.TDC_FCJ)
|
||
tdfj1_1dqj := component.BitStateType.Get(elec.TDFJ1_1DQJ)
|
||
tdfj2_1dqj := component.BitStateType.Get(elec.TDFJ2_1DQJ)
|
||
tdfj2_2dqj := component.BitStateType.Get(elec.TDFJ2_2DQJ)
|
||
bhj := component.BitStateType.Get(elec.TDFJ2_BHJ)
|
||
qdj := component.BitStateType.Get(elec.TDFJ1_QDJ)
|
||
drive := component.RelayDriveType.Get(elec.TDFJ2_1DQJ)
|
||
if drive.Td { // 通电
|
||
if !(qdj.Val && bhj.Val) && !(tdfj1_1dqj.Val && ycj.Val && ((tdfj2_2dqj.Val && fcj.Val) || (!tdfj2_2dqj.Val && dcj.Val))) { // 电路断开
|
||
drive.Td = false
|
||
slog.Debug("TDFJ2_1DQJ断电")
|
||
}
|
||
} else { // 未通电
|
||
if (tdfj1_1dqj.Val && ycj.Val && ((tdfj2_2dqj.Val && fcj.Val) || (!tdfj2_2dqj.Val && dcj.Val))) || (tdfj2_1dqj.Val && qdj.Val && bhj.Val) { // 电路导通
|
||
drive.Td = true
|
||
slog.Debug("TDFJ2_1DQJ通电")
|
||
}
|
||
}
|
||
}
|
||
|
||
// 转辙机一TDFJ_2DQJ励磁电路逻辑(暂时未考虑应急盘操作按钮电路)
|
||
func (zdj9 *ZDJ9TwoDragSys) exciteM1_TDFJ_2DQJ(elec *component.Zdj9TwoElectronic) {
|
||
_1dqjf := component.BitStateType.Get(elec.TDFJ1_1DQJF)
|
||
dcj := component.BitStateType.Get(elec.TDC_DCJ)
|
||
fcj := component.BitStateType.Get(elec.TDC_FCJ)
|
||
drive := component.RelayDriveType.Get(elec.TDFJ1_2DQJ)
|
||
zdj9.excite2DQJ(1, _1dqjf, dcj, fcj, drive)
|
||
}
|
||
|
||
// 转辙机二TDFJ_2DQJ励磁电路逻辑(暂时未考虑应急盘操作按钮电路)
|
||
func (zdj9 *ZDJ9TwoDragSys) exciteM2_TDFJ_2DQJ(elec *component.Zdj9TwoElectronic) {
|
||
_1dqjf := component.BitStateType.Get(elec.TDFJ2_1DQJF)
|
||
dcj := component.BitStateType.Get(elec.TDC_DCJ)
|
||
fcj := component.BitStateType.Get(elec.TDC_FCJ)
|
||
drive := component.RelayDriveType.Get(elec.TDFJ2_2DQJ)
|
||
zdj9.excite2DQJ(2, _1dqjf, dcj, fcj, drive)
|
||
}
|
||
|
||
// 2DQJ励磁控制
|
||
// i - 几号转辙机(1/2)
|
||
func (zdj9 *ZDJ9TwoDragSys) excite2DQJ(i int, _1dqjf *component.BitState, dcj *component.BitState, fcj *component.BitState,
|
||
drive *component.RelayDrive) {
|
||
if drive.Td { // 通电
|
||
if !drive.Xq && _1dqjf.Val && dcj.Val {
|
||
drive.Xq = true
|
||
slog.Debug("TDFJ%v_2DQJ到定位\n", i)
|
||
} else if drive.Xq && _1dqjf.Val && fcj.Val {
|
||
drive.Xq = false
|
||
slog.Debug("TDFJ%v_2DQJ到反位\n", i)
|
||
} else if !(_1dqjf.Val && (dcj.Val || fcj.Val)) { // 断电
|
||
drive.Td = false
|
||
slog.Debug("TDFJ%v_2DQJ断电\n", i)
|
||
}
|
||
} else { // 未通电
|
||
if _1dqjf.Val {
|
||
if dcj.Val { // 通电,到吸起位
|
||
drive.Td = true
|
||
drive.Xq = true
|
||
slog.Debug("TDFJ%v_2DQJ通电,到吸起位\n", i)
|
||
} else if fcj.Val { // 通电,到落下位
|
||
drive.Td = true
|
||
drive.Xq = false
|
||
slog.Debug("TDFJ%v_2DQJ通电,到落下位\n", i)
|
||
}
|
||
}
|
||
}
|
||
}
|