HFDOM44P-192Sx中文资料
菲斯特秤说明书
11. 气动元件的供风
………………………………..29
11.1 压缩空气的配置 ……………………………………….29
11.2 供气-膨胀节的清洗 ………………………………….30
11.3 供气-节气阀 ………………………………………… 31
11.4 供气-测试装置 ……………………………………… 32
DRW 转子称 使用说明
天津菲斯特机械设备有限公司 地址:天津市北辰区双发大厦 28 门 702 室 邮编:300400 电话:022-26399421 传真:022-86819160 邮件:hxdfu@
目录
最终文件——机械部分
参考:
客户订单号:
菲斯特产品号:
模块/设备/安装
DC 电机碳刷破损
见维修手册 DC 电机的介 绍排除
转子阻塞/不能启动
数字测速仪故障/极性颠 更换测速仪/改变极性/按 倒/距传动轮的间隙过大 维修手册 N0. 5 进行调节
电机控制器参数错误 无设定值 W2 无外部释放
LTG/MSR 未联锁或不能 选择
按说明书检查参数
按说明书标定 TAD
检查现场启动条件,按说 明书输入释放 按说明书预选相应的 LTG/MSR(外部启动)
图3
图4 2.2 转子(30)的移出/复位(见图 5)
· 从支承框架上卸下带传动装置的下部壳体。 · 从下部壳体上拆除 3 个定位和调节螺钉(螺纹螺钉 M24×1.5)。 · 在转子的中部有一个 M16/15 深的螺纹孔,用于拧入带环螺栓。 · 借助带环螺栓用升降装置将转子至少上提 100mm,并将其从传
8. 出料头/出料管 …………………………………………….20
8.1 出料头的拆卸/更换 ……………………………………..20
成孚电子传感器样本-压电加速度传感器-速度传感器-位移传感器-磁电速度传感器-电子尺-激振器
CF0111 CF0113 CF0115 CF0117 型号 CF0111 CF0112 CF0113 CF0114 CF0115 CF0116 CF0117 CF0118 CF0131 CF0132 CF0141 CF0142 CF0143 CF0151 CF0152 灵敏度 (mV/g) 10 10 50 50 100 100 200 200 1.2 1.2 10 10 1.2 1000 1000
32×32×12 24×25×17 22×22×12
谐振频率 (kHz) ~40 ~40 ~30 ~30 ~20 ~20 ~15 ~15 ~60 ~60 ~40 ~40 ~60 ~5 ~5
5×10 5×10 2×10 2×10 5×10 5×10 1×10 1×10 3×10 3×10 5×10 5×10 8×10 50 50
-2
CF0430
单向 安装 方式
统试验和其他低频高精度测量领域 工作温度 (℃ ) 重 量 (克)
量程 (g)
横向灵敏 度比(%)
CF0410-3X
2
CF0420-002 CF0420-005 CF0420-010 CF0420-025 CF0420-050 CF0420-100 CF0420-200 CF0420-400 CF0430-002 CF0430-010 CF0430-050 CF0430-100 CF0430-200 CF0430-500 CF0430-1000
CF0350-025 CF0350-050 CF0350-100 CF0350-200 CF0350-500 CF0350-2000 CF0350-6000
25 50 100 200 500 2000 6000
备注:1、CF0330,CF0340 和 CF0320 指标一致,安装方式不同; 2、标配线缆长度为 3 米; 可定制特殊接头输出形式,订购时需注明。
XNX系列氢氧化物传感器的产品介绍说明书
XNX Gas Detector, HART® over 4-20mA output, ATEX/IECEx/INMETRO, 4 x M25 entries, painted 316SS, includes MPD XNX Gas Detector, HART® over 4-20mA output and local HART® interface port, ATEX/IECEx/INMETRO, 3 x M25 entries, XNX Gas Detector, HART® over 4-20mA output and 3 fault/alarm relays, ATEX/IECEx/INMETRO, 4 x M25 entries, painted6970Confidential71Confidential72Confidential73ConfidentialPart NumberDescriptionPGXNX-AMAE-FNNNN XNX Transmitter, HART® over 4-20mA and Foundation Fieldbus™ output, ATEX/IECEx/INMETRO, 4 x M25 entries, painted Aluminium, configured for XNX toxic and oxygen sensors895.00£ UB XNX-AMAE-FHNNNXNX Transmitter, HART® over 4-20mA and Foundation Fieldbus™ output and local HART® interface port, ATEX/IECEx/INMETRO, 3 x M25 entries, painted Aluminium, configured for XNX toxic and oxygen sensors958.00£ UBXNX Stainless Steel Transmitter UL/CSA for use with XNX Toxic and Oxygen Sensors Part Number Description GBP PGXNX-UTSE-NNNNN XNX Transmitter, HART® over 4-20mA output, UL/CSA, 4 x 3/4"NPT entries, painted 316SS, configured forXNX toxic and oxygen sensors975.00£ UB XNX-UTSE-NHNNN XNX Transmitter, HART® over 4-20mA output and local HART® interface port, UL/CSA, 3 x 3/4"NPTentries, painted 316SS, configured for XNX toxic and oxygen sensors1,037.00£ UB XNX-UTSE-RNNNN XNX Transmitter, HART® over 4-20mA output and 3 fault/alarm relays, UL/CSA, 4 x 3/4"NPT entries,painted 316SS, configured for XNX toxic and oxygen sensors1,037.00£ UB XNX-UTSE-RHNNN XNX Transmitter, HART® over 4-20mA output and 3 fault/alarm relays and local HART® interface port,UL/CSA, 3 x 3/4"NPT entries, painted 316SS, configured for XNX toxic and oxygen sensors 1,098.00£ UB XNX-UTSE-MNNNN XNX Transmitter, HART® over 4-20mA and Modbus output, UL/CSA, 4 x 3/4"NPT entries, painted 316SS, configured for XNX toxic and oxygen sensors1,068.00£ UB XNX-UTSE-MHNNN XNX Transmitter, HART® over 4-20mA and Modbus output and local HART® interface port, UL/CSA, 3 x 3/4"NPT entries, painted 316SS, configured for XNX toxic and oxygen sensors1,128.00£ UB XNX-UTSE-FNNNN XNX Transmitter, HART® over 4-20mA and Foundation Fieldbus™ output, UL/CSA, 4 x 3/4"NPT entries, painted 316SS, configured for XNX toxic and oxygen sensors1,098.00£ UB XNX-UTSE-FHNNNXNX Transmitter, HART® over 4-20mA and Foundation Fieldbus™ output and local HART® interface port, UL/CSA, 3 x 3/4"NPT entries, painted 316SS, configured for XNX toxic and oxygen sensors1,159.00£ UBXNX Aluminium Transmitter UL/CSA for use with XNX Toxic and Oxygen Sensors Part Number Description GBP PGXNX-UTAE-NNNNN XNX Transmitter, HART® over 4-20mA output, UL/CSA, 4 x 3/4"NPT entries, painted Aluminium,configured for XNX toxic and oxygen sensors767.00£ UB XNX-UTAE-NHNNN XNX Transmitter, HART® over 4-20mA output and local HART® interface port, UL/CSA, 3 x 3/4"NPTentries, painted Aluminium, configured for XNX toxic and oxygen sensors831.00£ UB XNX-UTAE-RNNNN XNX Transmitter, HART® over 4-20mA output and 3 fault/alarm relays, UL/CSA, 4 x 3/4"NPT entries,painted Aluminium, configured for XNX toxic and oxygen sensors831.00£ UB XNX-UTAE-RHNNN XNX Transmitter, HART® over 4-20mA output and 3 fault/alarm relays and local HART® interface port,UL/CSA, 3 x 3/4"NPT entries, painted Aluminium, configured for XNX toxic and oxygen sensors 895.00£ UB XNX-UTAE-MNNNN XNX Transmitter, HART® over 4-20mA and Modbus output, UL/CSA, 4 x 3/4"NPT entries, painted Aluminium, configured for XNX toxic and oxygen sensors863.00£ UB XNX-UTAE-MHNNN XNX Transmitter, HART® over 4-20mA and Modbus output and local HART® interface port, UL/CSA, 3 x 3/4"NPT entries, painted Aluminium, configured for XNX toxic and oxygen sensors927.00£ UB XNX-UTAE-FNNNN XNX Transmitter, HART® over 4-20mA and Foundation Fieldbus™ output, UL/CSA, 4 x 3/4"NPT entries, painted Aluminium, configured for XNX toxic and oxygen sensors895.00£ UB XNX-UTAE-FHNNNXNX Transmitter, HART® over 4-20mA and Foundation Fieldbus™ output and local HART® interface port, UL/CSA, 3 x 3/4"NPT entries, painted Aluminium, configured for XNX toxic and oxygen sensors958.00£ UB74Confidential75Confidential76Confidential77ConfidentialXNX Aluminuim Transmitter ATEX/IEC for use with Optima Plus and Searchline Excel Detectors78ConfidentialXNX Aluminuim Transmitter UL/CSA for use with Optima Plus and Searchline Excel DetectorsExcel kits including standard XNX transmitter configured with HART® over 4-20mA output and local IS HART® port. For Excel kits includingother XNX transmitter configurations contact Honeywell Analytics. A calibration has to be ordered with every XNX Excel kit.Excel gas calibration curve to be selected from section 29.2 and to be ordered additionally.23.1 InstrumentExcel kits including standard XNX transmitter with HART® over 4-20mA outputs and local IS HART® port.Excel Short Range 5m – 40m (15ft - 130ft)Part Number Description GBP PG 02104-N-XSAA XNX Excel line-of-sight gas detection system, short range (5 to 40m), 4 to 20mA and HART® outputs, ATEX/IECEx, fully wired with flexible conduit, electro polished 316SS. Includes Tx, Rx, aluminimum XNX, Ex e junction box with M20/M25 cable entries, 316SS mounting plates, brackets and hardware 6,518.00£ UA02104-N-XSSAXNX Excel line-of-sight gas detection system, short range (5 to 40m), 4 to 20mA and HART® outputs, ATEX/IECEx, fully wired with flexible conduit, electro polished 316SS. Includes Tx, Rx, stainless steel XNX, Ex e junction box with M20/M25 cable entries, 316SS mounting plates, brackets and hardware6,649.00£ UA 02104-N-XSAUXNX Excel line-of-sight gas detection system, short range (5 to 40m), 4 to 20mA and HART® outputs, UL, fully wired with flexible conduit, electro polished 316SS. Includes Tx, Rx, aluminimum XNX, junction box with 3/4"NPT cable entries, 316SS mounting plates, brackets and hardware6,827.00£ UA 02104-N-XSSUXNX Excel line-of-sight gas detection system, short range (5 to 40m), 4 to 20mA and HART® outputs, UL, fully wired with flexible conduit, electro polished 316SS. Includes Tx, Rx, stainless steel XNX, junction box with 3/4"NPT cable entries, 316SS mounting plates, brackets and hardware6,960.00£ UA 02104-N-XSACXNX Excel line-of-sight gas detection system, short range (5 to 40m), 4 to 20mA and HART® outputs, FM/CSA, fully wired with flexible conduit, electro polished 316SS. Includes Tx, Rx, aluminimum XNX, junction box with 3/4"NPT cable entries, 316SS mounting plates, brackets and hardware6,539.00£ UA 02104-N-XSSCXNX Excel line-of-sight gas detection system, short range (5 to 40m), 4 to 20mA and HART® outputs, FM/CSA, fully wired with flexible conduit, electro polished 316SS. Includes Tx, Rx, stainless steel XNX, junction box with 3/4"NPT cable entries, 316SS mounting plates, brackets and hardware6,671.00£ UA 02104-N-NSNAExcel line-of-sight gas detection system (without XNX, please order required XNX separately), short range (5 to 40m), 4 to 20mA output, ATEX/IECEx, fully wired with flexible conduit, electro polished 316SS. Includes Tx, Rx, 316SS mounting plates, brackets and hardware. XNX and junciton boxes to be ordered seperately.5,591.00£ UA83Confidential。
HF电机参数总一览表
HF 伺服电机 参数一览表整理:上海宇松技术部 日期:2010-7-232010.07.23宇松赵国胜M60SM60SM60SR-V1-20/40D-SVJ3-07D-V1-20DM-V3-20/40R-V1-20/40D-SVJ3-07D-V1-40DM-SPV3DM-V3-40R-V1-20/40D-SVJ3-10D-V1-40DM-SPV3DM-V3-40参数号代号解释SV001PC1马达侧齿轮比11111111111111SV002PC2机械侧齿轮比11111111111111SV003PGN1位置回路增益13333333333333333333333333333SV004PGN2位置回路增益200000000000000SV005VGN1速度回路增益1152210010040100100100455045100100100SV006VGN2速度回路增益200000000000000SV007-00000000000000SV008VIA 速度回路前进补偿13641364136413641364136413641364136413641364136413641364SV009IQA 前进电流回路q轴补偿6144204802048020480614420480204801024020480614415360102401024010240SV010IDA 前进电流回路d轴补偿6144204802048020480614420480204801024020480614415360102401024010240SV011IQG 电流回路q轴增益76817927687681280307230721280307210242560128012801280SV012IDG 电流回路d轴增益76817927687681280307230721280307210242560128012801280SV013ILMT 电流极限值1500800800800500800800800800500800800800800SV014ILMTsp 电流极限值(特殊控制用)500800800800500800800800800500800800800800SV015FFC 加速度前馈进给增益00000000000000SV016LMC1失位运动补正增益100000000000000SV017SPEC1绝对值伺服系统规格1000001000/14001000001400100010000014001000SV018PIT 导螺杆螺距——___—————__——_____SV019RNG1位置检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV020RNG2速度检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV021OLT 过负载时间常数6060606060606060606060606060SV022OLL 过负载检测等级150150150150150150150150150150150150150150SV023OD1误差宽度1(伺服ON时)66666666666666SV024INP 定位宽度5050505050505050505050505050SV025MTYP 马达型号221D 2201220122012210220322032203220322112204220422042204SV026OD2误差宽度2(伺服OFF时)66666666666666SV027SSF1特殊伺服机能选择 140004000400040004000400040004000400040004000400040004000SV028-00000000000000SV029VCS 速度变换时的速度回路增益00000000000000SV030IVC 电压不感带补正00000000000000SV031-00000000000000SV032TOF 转矩补正增益00000000000000SV033SSF2特殊伺服机能选择 200000000SV034SSF3特殊伺服机能选择 30000000000SV035SSF4特殊伺服机能选择 400000000000000SV036PTYP 回生电阻类型00000000000000SV037JL 负荷惯量倍率00000000000000SV038FHZ1机械共振抑制滤波器频率00000000000000SV039LMCD 失位运动补正延迟时间00000000000000SV040LMCT 前馈进给控制时不感带00000000000000SV041LMC2失位运动补正增益00000000000000SV042-00000000000000SV043OSB1外乱观测100000000000000SV044OSB2外乱观测200000000000000SV045-00000000000000SV046FHZ2机械共振抑制滤波器频率2M70HF104M70驱动器M70HF75系统类别HF电机HF54SV047EC1诱起电压补正增益100100100100100100100100100100100100100100 SV048EMGrt上下轴落下防止时间00000000000000 SV049PGN1sp主轴同期位置回路增益11515151515151515151515151515 SV050PGN2sp主轴同期位置回路增益200000000000000 SV051-00000000000000 SV052-00000000000000 SV053OD3误差宽度3误差00000000000000 SV054-00000000000000 SV055EMGX00000000000000 SV056EMGT减速控制时间常数00000000000000 SV057SHGC SHG控制增益00000000000000 SV058SHGCsp主轴同期时SHG控制增益00000000000000 SV059-00000000000000 SV060-00000000000000 SV061DA1NO D/A输出信道1资料号码00000000000000 SV062DA2NO D/A输出信道2资料号码00000000000000 SV063DA1MPY D/A输出信道1输出倍率00000000000000 SV064DA2MPY D/A输出信道2输出倍率00000000000000 SV094注二MPV磁极位置异常检测速度10000100000100000M60SM60SM60SR-V1-20/40D-SVJ3-10D-V1-20/40DM-V3-20/40R-V1-20D-SVJ3-10D-V1-20DM-V3-20/40R-V1-20D-SVJ3-10D-V1-20DM-V3-20/40参数号代号解释SV001PC1马达侧齿轮比111111111111SV002PC2机械侧齿轮比111111111111SV003PGN1位置回路增益1333333333333333333263333SV004PGN2位置回路增益20000000007000SV005VGN1速度回路增益13010010010070361001007034100100SV006VGN2速度回路增益2000000000000SV007-000000000000SV008VIA 速度回路前进补偿136413641364136413641364136413641364190013641364SV009IQA 前进电流回路q轴补偿61441024010240102401024020480102401024015360204801536015360SV010IDA 前进电流回路d轴补偿61441024010240102401024020480102401024015360204801536015360SV011IQG 电流回路q轴增益51251251251212804096153615362048614420482048SV012IDG 电流回路d轴增益51251251251212804096153615362048614420482048SV013ILMT 电流极限值1500800800800500800800800500800800800SV014ILMTsp 电流极限值(特殊控制用)500800800800500800800800500800800800SV015FFC 加速度前馈进给增益00000000010000SV016LMC1失位运动补正增益1000000000000SV017SPEC1绝对值伺服系统规格0001000/14001000100010001000/14001000100010000SV018PIT 导螺杆螺距________————__SV019RNG1位置检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV020RNG2速度检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV021OLT 过负载时间常数606060606060606060606060SV022OLL 过负载检测等级150150150150150150150150150150150150SV023OD1误差宽度1(伺服ON时)666666666666SV024INP 定位宽度505050505050505050505050SV025MTYP 马达型号220E 22022202220222242224222422242225222522252225SV026OD2误差宽度2(伺服OFF时)666666666666SV027SSF1特殊伺服机能选择 1400040004000400040004000400040004000400040004000SV028-000000000000SV029VCS 速度变换时的速度回路增益000000000000SV030IVC 电压不感带补正000000000000SV031-000000000000SV032TOF 转矩补正增益000000000000SV033SSF2特殊伺服机能选择 2000000000000SV034SSF3特殊伺服机能选择 30SV035SSF4特殊伺服机能选择 4000000000000SV036PTYP 回生电阻类型000000000000SV037JL 负荷惯量倍率000000000000SV038FHZ1机械共振抑制滤波器频率000000000000SV039LMCD 失位运动补正延迟时间000000000000SV040LMCT 前馈进给控制时不感带000000000000SV041LMC2失位运动补正增益000000000000SV042-000000000000SV043OSB1外乱观测1000000000000SV044OSB2外乱观测2000000000000SV045-HF电机系统类别驱动器HF105HF123HF142M70M70M70SV046FHZ2机械共振抑制滤波器频率2000000000000 SV047EC1诱起电压补正增益100100100100100100100100100100100100 SV048EMGrt上下轴落下防止时间000000000000 SV049PGN1sp主轴同期位置回路增益1151515151515151515151515 SV050PGN2sp主轴同期位置回路增益2000000000000 SV051-000000000000 SV052-000000000000 SV053OD3误差宽度3误差000000000000 SV054-000000000000 SV055EMGX000000000000 SV056EMGT减速控制时间常数000000000000 SV057SHGC SHG控制增益000000000000 SV058SHGCsp主轴同期时SHG控制增益000000000000 SV059-000000000000 SV060-000000000000 SV061DA1NO D/A输出信道1资料号码000000000000 SV062DA2NO D/A输出信道2资料号码000000000000 SV063DA1MPY D/A输出信道1输出倍率000000000000 SV064DA2MPY D/A输出信道2输出倍率000000000000 SV094注二MPV磁极位置异常检测速度100001000010000M60SM60SR-V1-40/60/80D-SVJ3-20D-V1-80DM-SPV3DM-V3-40R-V1-40D-SVJ3-10D-V1-40DM-SPV3DM-V3-40参数号代号解释SV001PC1马达侧齿轮比1111111111SV002PC2机械侧齿轮比1111111111SV003PGN1位置回路增益133333333333333332633SV004PGN2位置回路增益200000000700SV005VGN1速度回路增益14040100100100707010070100SV006VGN2速度回路增益20000000000SV007-0000000000SV008VIA 速度回路前进补偿1364136413641364136413641364136419001364SV009IQA 前进电流回路q轴补偿61441536010240102406144819210240819281928192SV010IDA 前进电流回路d轴补偿61441536010240102406144819210240819281928192SV011IQG 电流回路q轴增益1024256015361536102410241536128012801280SV012IDG 电流回路d轴增益1024256015361536102410241536128012801280SV013ILMT 电流极限值1500800800800800500800800800800SV014ILMTsp 电流极限值(特殊控制用)500800800800800500800800800800SV015FFC 加速度前馈进给增益000000001000SV016LMC1失位运动补正增益10000000000SV017SPEC1绝对值伺服系统规格1000000100010001000100014001000SV018PIT 导螺杆螺距_————————_____SV019RNG1位置检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV020RNG2速度检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV021OLT 过负载时间常数60606060606060606060SV022OLL 过负载检测等级150150150150150150150150150150SV023OD1误差宽度1(伺服ON时)6666666666SV024INP 定位宽度50505050505050505050SV025MTYP 马达型号2212220522052205220F 22262226222622262226/222D 注1SV026OD2误差宽度2(伺服OFF时)6666666666SV027SSF1特殊伺服机能选择 14000400040004000400040004000400040004000SV028-0000000000SV029VCS 速度变换时的速度回路增益0000000000SV030IVC 电压不感带补正0000000000SV031-0000000000SV032TOF 转矩补正增益0000000000SV033SSF2特殊伺服机能选择 2000SV034SSF3特殊伺服机能选择 30000000000SV035SSF4特殊伺服机能选择 40000000000SV036PTYP 回生电阻类型0000000000SV037JL 负荷惯量倍率0000000000SV038FHZ1机械共振抑制滤波器频率0000000000SV039LMCD 失位运动补正延迟时间0000000000SV040LMCT 前馈进给控制时不感带0000000000SV041LMC2失位运动补正增益0000000000SV042-0000000000SV043OSB1外乱观测10000000000SV044OSB2外乱观测20000000000SV045-0000000000SV046FHZ2机械共振抑制滤波器频率2系统类别驱动器HF223M70M70HF154HF电机SV047EC1诱起电压补正增益100100100100100100100100100100 SV048EMGrt上下轴落下防止时间0000000000 SV049PGN1sp主轴同期位置回路增益115151515151515151515 SV050PGN2sp主轴同期位置回路增益20000000000 SV051-0000000000 SV052-0000000000 SV053OD3误差宽度3误差0000000000 SV054-0000000000 SV055EMGX0000000000 SV056EMGT减速控制时间常数0000000000 SV057SHGC SHG控制增益0000000000 SV058SHGCsp主轴同期时SHG控制增益0000000000 SV059-0000000000 SV060-0000000000 SV061DA1NO D/A输出信道1资料号码0000000000 SV062DA2NO D/A输出信道2资料号码0000000000 SV063DA1MPY D/A输出信道1输出倍率0000000000 SV064DA2MPY D/A输出信道2输出倍率0000000000 SV094注二MPV磁极位置异常检测速度100000100000M60SM60SM60SR-V1-60D-SVJ3-20D-V1-80R-V1-40D-SVJ3-10D-V1-40DM-SPV3DM-V3-40-V1-40/60/8D-SVJ3-20D-V1-80DM-SPV3参数号代号解释SV001PC1马达侧齿轮比111111111111SV002PC2机械侧齿轮比111111111111SV003PGN1位置回路增益1333333333333333333333333SV004PGN2位置回路增益2000000000000SV005VGN1速度回路增益170100100701401001001007510010090SV006VGN2速度回路增益2000000000000SV007-000000000000SV008VIA 速度回路前进补偿136413641364136413641364136413641364136413641364SV009IQA 前进电流回路q轴补偿61441024081924096102408192819281926144819281928192SV010IDA 前进电流回路d轴补偿61441024081924096102408192819281926144819281928192SV011IQG 电流回路q轴增益76815361280128030722048204820481024307220482048SV012IDG 电流回路d轴增益76815361280128030722048204820481024307220482048SV013ILMT 电流极限值1500800800500800800800800800800800800SV014ILMTsp 电流极限值(特殊控制用)500800800500800800800800800800800800SV015FFC 加速度前馈进给增益000000000000SV016LMC1失位运动补正增益1000000000000SV017SPEC1绝对值伺服系统规格100010001000100010001000140010001000001000SV018PIT 导螺杆螺距——_————__——————————_SV019RNG1位置检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV020RNG2速度检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV021OLT 过负载时间常数606060606060606060606060SV022OLL 过负载检测等级150150150150150150150150150150150150SV023OD1误差宽度1(伺服ON时)666666666666SV024INP 定位宽度505050505050505050505050SV025MTYP 马达型号22162206220622272227222722272227/222E 注一2213220722072207SV026OD2误差宽度2(伺服OFF时)666666666666SV027SSF1特殊伺服机能选择 1400040004000400040004000400040004000400040004000SV028-000000000000SV029VCS 速度变换时的速度回路增益000000000000SV030IVC 电压不感带补正000000000000SV031-000000000000SV032TOF 转矩补正增益000000000000SV033SSF2特殊伺服机能选择 2000000000000SV034SSF3特殊伺服机能选择 3000SV035SSF4特殊伺服机能选择 4000000000000SV036PTYP 回生电阻类型000000000000SV037JL 负荷惯量倍率000000000000SV038FHZ1机械共振抑制滤波器频率000000000000SV039LMCD 失位运动补正延迟时间000000000000SV040LMCT 前馈进给控制时不感带000000000000SV041LMC2失位运动补正增益000000000000SV042-000000000000SV043OSB1外乱观测1000000000000SV044OSB2外乱观测2000000000000SV045-000000000000SV046FHZ2机械共振抑制滤波器频率2系统类别驱动器M70M70HF224HF302HF电机HF204M70SV047EC1诱起电压补正增益100100100100100100100100100100100100 SV048EMGrt上下轴落下防止时间000000000000 SV049PGN1sp主轴同期位置回路增益1151515151515151515151515 SV050PGN2sp主轴同期位置回路增益2000000000000 SV051-000000000000 SV052-000000000000 SV053OD3误差宽度3误差000000000000 SV054-000000000000 SV055EMGX000000000000 SV056EMGT减速控制时间常数000000000000 SV057SHGC SHG控制增益000000000000 SV058SHGCsp主轴同期时SHG控制增益000000000000 SV059-000000000000 SV060-000000000000 SV061DA1NO D/A输出信道1资料号码000000000000 SV062DA2NO D/A输出信道2资料号码000000000000 SV063DA1MPY D/A输出信道1输出倍率000000000000 SV064DA2MPY D/A输出信道2输出倍率000000000000 SV094注二MPV磁极位置异常检测速度10001000000000HF453HF703HF903M60SM60SM70M70M70R-V1-60D-SVJ3-20D-V1-80DM-SPV3R-V1-60/80D-SVJ3-35D-V1-160D-V1-160D-V1-160W D-V1-320参数号代号解释SV001PC1马达侧齿轮比1111111111SV002PC2机械侧齿轮比1111111111SV003PGN1位置回路增益133333333333333333333SV004PGN2位置回路增益20000000000SV005VGN1速度回路增益1140110100100120110100100100100SV006VGN2速度回路增益20000000000SV007-0000000000SV008VIA 速度回路前进补偿1364136413641364136413641364136413641364SV009IQA 前进电流回路q轴补偿409681921024010240614461448192614461444096SV010IDA 前进电流回路d轴补偿409681921024010240614461448192614461444096SV011IQG 电流回路q轴增益1280256020482048102420482048204820481536SV012IDG 电流回路d轴增益1280256020482048102420482048204820481536SV013ILMT 电流极限值1500800800800500800800800800800SV014ILMTsp 电流极限值(特殊控制用)500800800800500800800800800800SV015FFC 加速度前馈进给增益0000000000SV016LMC1失位运动补正增益10000000000SV017SPEC1绝对值伺服系统规格1000100010001000100000000SV018PIT 导螺杆螺距__________SV019RNG1位置检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV020RNG2速度检测器分辨率/A42/A4260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000260/1000SV021OLT 过负载时间常数60606060606060606060SV022OLL 过负载检测等级150150150150150150150150150150SV023OD1误差宽度1(伺服ON时)6666666666SV024INP 定位宽度50505050505050505050SV025MTYP 马达型号22282228222822282214220822082209220A 220B SV026OD2误差宽度2(伺服OFF时)6666666666SV027SSF1特殊伺服机能选择 14000400040004000400040004000400040004000SV028-0000000000SV029VCS 速度变换时的速度回路增益0000000000SV030IVC 电压不感带补正0000000000SV031-0000000000SV032TOF 转矩补正增益0000000000SV033SSF2特殊伺服机能选择 20000000000SV034SSF3特殊伺服机能选择 30SV035SSF4特殊伺服机能选择 40000000000SV036PTYP 回生电阻类型0000000000SV037JL 负荷惯量倍率0000000000SV038FHZ1机械共振抑制滤波器频率0000000000SV039LMCD 失位运动补正延迟时间0000000000SV040LMCT 前馈进给控制时不感带0000000000SV041LMC2失位运动补正增益0000000000SV042-0000000000SV043OSB1外乱观测10000000000SV044OSB2外乱观测20000000000SV045-0000000000SV046FHZ2机械共振抑制滤波器频率2驱动器HF354M70HF电机系统类别HF303M70SV047EC1诱起电压补正增益100100100100100100100100100100 SV048EMGrt上下轴落下防止时间0000000000 SV049PGN1sp主轴同期位置回路增益115151515151515151515 SV050PGN2sp主轴同期位置回路增益20000000000 SV051-0000000000 SV052-0000000000 SV053OD3误差宽度3误差0000000000 SV054-0000000000 SV055EMGX0000000000 SV056EMGT减速控制时间常数0000000000 SV057SHGC SHG控制增益0000000000 SV058SHGCsp主轴同期时SHG控制增益0000000000 SV059-0000000000 SV060-0000000000 SV061DA1NO D/A输出信道1资料号码0000000000 SV062DA2NO D/A输出信道2资料号码0000000000 SV063DA1MPY D/A输出信道1输出倍率0000000000 SV064DA2MPY D/A输出信道2输出倍率0000000000 SV094注二MPV磁极位置异常检测速度100001000000宇松2010.07.23赵国胜。
蜚声功放说明书
5. 安装孔 用于安装到机柜时固定用。
6. 通道1的音量控制器 功放工作于立体声或并接模式时由此控制器控制通道1的输出电平,功放工作于桥接模式时由此控制器控 制输出电平,此时通道2的音量控制器失效。
7. 保护指示 当此指示灯亮,处于保护状态,方便找出问题所在。 指示的保护功能有:削峰压限保护、过热保护、过载保护、短路保护、直流保护功能。
11电压增益频率响应总谐波失真转换速率阻尼系数动态范围信噪比输入灵敏度输入阻抗平衡不平衡输出级电路类型保护功能高通滤波器低通滤波器散热气流方向输入电压频率外箱尺寸mm重量压限直流短路开关机零冲击开机软启动vhf甚高频保护压限直流短路开关机零冲击开机软启动从功放面板进风23kg29kg29kg33kg35kg38kg33kgl620xw585xh210max1200max2400max3600max4300max7200max7800650wx21250wx2450wx2675wx2800wx2975wx21650wx21950wx2520wx2450wx2300wx21100wx2max4800830wx21250wx2900w1350w1600w1950w3300w3900w2500w620wx21000wx21200wx21400wx22160wx22700wx21850wx2桥接功率1240w2000w2400w2800w43200w5400w3700wmax系列技术参数12注意
2. TRS输入座(平衡或不平衡)。连接到上一级的周边处理设备。 3. 直通插座
与XLR 输入并联,提供一个与输入信号一样的输出信号,用此平衡插座连接到另一台设备。 (仅限于MAX4300、MAX4800、MAX7200、MAX7800) 4. 输入灵敏度开关 此开关用于选择功放的输入灵敏度:0.775V、1.0V及1.4V。(仅限于MAX4300、MAX4800、MAX7200、 MAX7800)。 5. 工作模式选择开关 用此开关去选择功放的工作模式: STEREO/立体声:两个通道完全独立。 PARALLEL/并接:信号共用通道1输入,音量独立控制,输出独立。 BRIDGE/桥接:信号共用通道1输入,音量由通道1控制,输出接通道1的SPEAKON。当使用到该工作模式 时,背板的指示灯亮。 注意:具体见下页的接线图。 6. 150Hz低通滤波器开关 若系统中需要推动超低音的音箱时,将开关拨到“ON”的位置可以滤掉150Hz以上的信号,直接使用功放 推动超低音的音箱,无需外加电子分频器。(仅限于MAX4300、MAX4800、MAX7200、MAX7800) 7. 音箱螺旋座输出 这是功放螺旋座的输出端。1+接喇叭的正端,1-接喇叭的负端,桥接时1+接喇叭的正端、2+接喇叭的负端。 8. 喇叭接线柱输出 这是功放喇叭接线柱的输出端。红色接喇叭的正端,黑色接喇叭的负端,桥接时只使用红色接喇叭的正端。 9. 保险管座 此保险管座内装由标准规格的保险管,用于故障时保护功放,如果功放已经接上电源待机指示灯没有点亮 时,请检查保险管的情况,如发现保险管已熔掉,在故障排除后,必须更换同一规格的保险管。 10. 散热的气流入口,不要有任何东西堵住。
HFDOM40KVXXX资料
1. PRODUCT OVERVIEWGENERAL DESCRIPTIONThe HFDOM40KVxxx series 40Pin Flash Disk Module is a flash technology based with True IDE interface flash memory card. It is constructed with flash disk controller chip and NAND-type (Samsung) flash memory device. The HFDOM40KV-xxx series operates in both 3.3-Volt and 5.0-Volt power supplies. It comes in capacity of 16, 32, 64, 128, 192, 256MB and up to 384MB MB formatted 40Pin type .By optimizing flash memory management, the life of this HFDOM40KVxxx series can be extended to its maximum level. Because the ECC function is included, the correctness of data transfer between the HFDOM40KVxxx series and a True IDE compatible interface device can be guaranteed.The HFDOM40KVxxx series is fully compatible with applications such as CPU card / board, set top box, industry / military PC / Notebook, security equipment, measuring instrument and embedded systems.FEATURES- ATA / True IDE compatible host interface- ATA command set compatible- Automatic sensing of PC Card ATA or true IDE host interface.- Very high performance, very low power consumption- Automatic error correction- Auto Standby to save power consumption.- Supports power down commands and sleep modes.- Integrated PCMCIA attribute memory of 256 bytes (CIS)- Support for 8 or 16 bit host transfers- 3.3V/5.0V operation voltage- Host Interface bus width : 8/16 bit Access- Flash Interface bus width : 8 bit Access- Capacity : Min. 16MB ~ Max. 1GMB- MTBF > 1,000,000 hours.- Minimum 10,000 insertions.- Shock : 2,000 G max.- Vibration : 15 G peak to peak max.PRODUCT SPECIFICATIONSCapacities :16, 32, 48, 64, 96, 128, 192, 256, 512 and up to 1GB (formatted)System Compatibility :Please refer to the compatibility list of index.Performance :Host Data Transfer Rates : up to 16.6 MB/sec, PIO mode 4; 16.6MB/sec, Multi-wordDMA mode 2; 33MB/secOperating Voltage : 3.3V / 5.0V 10%Power consumption : 3.3V ± 5%Read mode <30 mAWrite mode <56 mAStop mode <2 mAEnvironment conditions :Operating temperature 0°C to + 65°CStorage temperature - °C to + °CRelative humidity 8% to 95%, non-condensingELECTRICAL SPECIFICATIONSTable 1.1 Absolute Maximum RatingsSymbol Parameter Rating UnitsV DD Power supply -0.3 to 6.0 VV IN Input voltage -0.3 to V DD+0.3 VV OUT Output voltage -0.3 to V DD+0.3 VT STG Storage temperature -25 to 125 o C Table 1.2 Recommended Operating ConditionsMax. Units Symbol Parameter Min.5.5 V3.0V DD PowersupplyV DD Vvoltage 0V IN Inputtemperature 0 65 o CT OPR OperatingTable 1.3 DC CharacteristicsMaxUnitsTypSym. Parameter MinV IL Input low voltage 0.3V DD VV IH Input high voltage 0.7V DD VV IL Schmitt input low voltage 1.22 VV IH Schmitt input high voltage 2.08 VV OL Output low voltage 0.4 VV OH Output high voltage 2.3 1 VR I Input pull up/down resistance 75 kΩCAPACITY SPECIFICATIONSTable 1.4 Capacity SpecificationsPart Number Capacity (formatted)Cylinders Heads Sectors NOTE HFDOM40KB016 15,32Mbytes984 16 2HFDOM40KB03230,65 Mbytes984 16 4HFDOM40KB06461,32 Mbytes984 16 8HFDOM40KB096 91,98 Mbytes984 16 12122,64 Mbytes984 16 16 HFDOM40KB128K9K1G08UOM 119,65 Mbytes960 16 16 HFDOM40KB192 183,96 Mbytes984 16 24245,28 Mbytes984 16 32 HFDOM40KB256K9K1G08UOM239,29 Mbytes960 16 32369,91 Mbytes984 16 48 HFDOM40KB384K9K1G08UOM357,86 Mbytes960 16 48PHYSYCAL SPECIFICATION< View from front side >< View from connector side >Figure 1.1 40 pin Type Flash Disk Module DimensionsINSTALLTION GUIDE1) Setting MethodMake sure your computer is turned off before you open the case.Plug the carefully into the 40pin IDE slot on your computer.Caution: Make sure to align pin1 on host adapter interface connector with pin 1 on your Flash Disk Module. Pin 1 is indicated by a triangle on the Flash Disk Module connector.The Flash Disk Module is used power connector cable of the computer.Caution: If you need to remove your Flash Disk Module, use both hands to pull it out carefully.Check all cable connections and then replace your computer cover.2) BIOS setting MethodBefore you format or partition your new drive, you must configure your computer's BIOS so that the computer can recognize your new drive.Turn your computer on. As your computer start up, watch the screen for a message describing how to run thesystem setup program on the screen (sometimes called BIOS or CMOS setup). This is usually done by pressing a special key, such as Delete, Esc or F1 during startup. See your computer manual for details. Press the appropriate key to run the system setup program.If your BIOS provides automatic drive detection (an "AUTO" drive type), select this option. ( Werecommend to use Normal / CHS mode to partition your Flash Disk Module to get the maximum formatted capacity. )This allows your computer to configure itself automatically for your new drive.If your BIOS dose not provide “AUTO” drive detection, select "User-defined" drive setting and enter the CHS values from the table. BIOS Settings (see specification) Capacity Cylinders Heads Sectors(unformatted) Save the settings and exit the System Setup program. ( your computer will automatically reboot ) After youconfigure your computer, you can use the standard DOS commands to partition and format your Flash Disk Module, as described below.3) Formatting MethodTo partition your new Flash Disk Module with Microsoft DOS program :Insert a bootable DOS diskette into your diskette drive and restart your computer.Insert a DOS program diskette that contains the FDISK.EXE and programs into your diskette drive. Use the same DOS version that is on your bootable diskette. At the A:\ > prompt, type “FDISK” and press Enter.Select “Create DOS partition or logical DOS drive” by pressing 1. Then press Enter.Select “Create primary DOS partition” by pressing 1 again. Then press Enter.Create your first drive partition. If you are creating a partition that will be used to boot your computer (drive C),make sure that the partition is marked active.Create an extended partition and additional logical drives as necessary, until all the space on your new hard drive has been partitioned.When the partitioning is complete, FDISK reboots your computer.Caution: Make sure to use the correct drive letters so that you do not format a drive that already contains data.At the A:\ > prompt, type “format c:/s”, where c is the letter of your first new partition, Repeat the format process for all the new partitions you have created.After you format your drive, it is ready to use.2. PIN INFORMATIONPIN ASSIGNMENTS AND PIN TYPETable 2.1 Pin Assignment and Pin typeType Pin SignalTypePinPinPin Signal1 /RESET I2 GND Ground3 D07 I/O4 D08 I/O5 D06 I/O 6 D09 I/O7 D05 I/O 8 D10 I/O9 D04 I/O 10 D11 I/O11 D03 I/O 12 D12 I/O13 D02 I/O 14 D13 I/O15 D01 I/O 16 D14 I/O17 D00 I/O 18 D15 I/O19 GND DC 20 Key Pin --21 INPACK -- 22 GND Ground23 /IOW I 24 GND Ground25 /IOR I 26 GND Ground27 IORDY O 28 Reserved --29 REG -- 30 GND Ground31 IRQ O 32 /IOIS16 O33 A01 I 34 /PDIAG I/O35 A00 I 36 A02 I37 /CS0 I 38 /CS1 I39 /DASP I/O 40 GND GroundSignal DescriptionsTable 2.2 Signal DescriptionsSignal Name Dir.PinDescriptionA[2:0] I 33,35,36 In True IDE Mode only A[2:0] are used to select the one of eight registers inthe Task File, the remaining address lines should be grounded by the host.-PDIAG I/O 34 This input / output is the Pass Diagnostic signal in the Master / Slavehandshake protocol.-DASP I/O 39 In the True IDE Mode, this input/output is the Disk Active/SlavePresent signal in the Master/Slave handshake protocol.-CS0, -CS1I 37,38 CS0 is the chip select for the task file registers while CS2 is used to selectthe Alternate Status Register and the Device Control Register.D[15:00]I/O3,4,5,6,7,8,9,10, 11,12,13, 14,15,16, 17,18 All Task File operations occur in byte mode on the low order bus D00-D07while all data transfers are 16 bit using D00-D15.GND-- 2,19,22,24,26, 30,40,Ground.-IOR I 25This is an I/O Read strobe generated by the host. -IOWI 23 The I/O Write strobe pulse is used to clock I/O data on the Card Data bus into the Storage Card controller registers when the Storage Card isconfigured to use the I/O interface. The clocking will occur on the negative topositive edge of the signal (trailing edge). IRQ O 31In True IDE Mode signal is the active high Interrupt Request to the host. -RESET I 1This input pin is the active low hardware reset from the host. IORDY O 27This output signal may be used as IORDY. -IOIS16O 32 This output signal is asserted low when this device is expecting a word datatransfer cycle.BLOCK DIAGRAMFigure 2.1 Block Diagram3. INTERFACE BUS TIMINGACCESS SPCIFICATIONS1 System clock timingSym. Description Min. Typ. Max. Unit Tc Clock cycle time 45 50 100ns Tlpd Clock low pulse duration 0.4Tc 0.6Tc ns Thpd Clock high pulse duration 0.4Tc 0.6Tc ns2 Host Read/Write timingSym. Description Min.Typ.Max. Unit Td HD bus asserted from HIOR# / HOE# 10nsTh (R) HD hold time after HIOR# / HOE# 40 70 ns Ts (W) HD set up time of HIOW# / HWE# 10 ns Th (W) HD hold time of HIOW# / HWE# 5nsHAHA ValidCE[2:1]3 Flash Read/Write timingSym. Description Min.Typ.Max. Unit Tc (F) Flash Read / Write cycle time 100 ns Ts (FW) FD set up time of FWE# 80 ns Th (FW) FD hold time of FWE# 40 ns Ts (FR) FD set up time of FRD# 10 ns Th (FR) FD hold time of FRD# 5nsREGISTERS1) Data Register (Address – 1F0h[170h];Offset 0,8,9)The Data Register is a 16-bit register, and it is used to transfer data blocks between theCompactFlash Storage Card data buffer and the Host. This register overlaps the Error Register.The table below describes the combinations of data register access and is provided to assist in understanding the overlapped Data Register and Error/Feature Register rather than to attempt to define general PCMCIA word and byte access modes and operations. See the PCMCIA PC Card Standard Release 2.0 for definitions of the Card Accessing Modes for I/O and Memory cycles.Note: Because of the overlapped registers, access to the 1F1h, 171h or offset 1 are not defined for word (-CE2 = 0 and -CE1 = 0) operations. These accesses are treated as accesses to the Word DataRegister. The duplicated registers at offsets 8, 9 and Dh have no restrictions on the operations thatcan be performed by the socket.Data Register AccessDATA Register CE2- CE1- A0 OffsetData Bus Word Data Register 0 0 X 0,8,9 D15-D01 0 0 0,8 D7-D0Even Data RegisterOdd Data Register 1 0 1 9 D7-D0Odd Data Register 0 1 X 8,9 D15-D8Error/Feature Register 1 0 1 1,Dh D7-D0Error/Feature Register 0 1 X 1 D15-D8Error/Feature Register 0 0 X Dh D15-D82) Error Regis t er (Address – 1F1h[171h];Offset 1,0Dh Read Only)This register contains additional information about the source of an error when an error isindicated in bit 0 of the Status register. The bits are defined as follows:D7 D6 D5 D4 D3 D2 D1 D0BBK UNC 0 IDNF 0 ABRT 0 AMNFError RegisterThis register is also accessed on data bits D15-D8 during a write operation to offset 0 with -CE2 low and -CE1 high.Bit 7 (BBK): this bit is set when a Bad Block is detected.Bit 6 (UNC): this bit is set when an Uncorrectable Error is encountered.Bit 5: this bit is 0.Bit 4 (IDNF): the requested sector ID is not valid error or cannot be found.Bit 3: this bit is 0.Bit 2 (Abort) This bit is set if the command has been aborted because of a CompactFlashStorage Card status condition: (Not Ready, Write Fault, etc.) or when an invalid commandhas been issued.Bit 1 This bit is 0.Bit 0 (AMNF) This bit is set in case of a general error happened.3) Feature Register(Address – 1F1h[171h];Offset 1,0Dh Writer Only)This register provides information regarding features of the CompactFlash Storage Card that the host can utilize.This register is also accessed on data bits D15-D8 during a write operation to Offset 0 with -CE2 low and -CE1 high.BIT DESCRIPTION-7 6 5 4 3 2 1 0Command specific4) Sector Count Register(Address – 1F2h[172h];Offset 2)This register contains the numbers of sectors of data requested to be transferred on a read orwrite operation between the host and the CompactFlash Storage Card. If the value in this register is zero, a count of 256 sectors is specified. If the command was successful, this register is zero at command completion. If not successfully completed, the register contains the number of sectors that need to be transferred in order to complete the request.BIT DESCRIPTION-7 6 5 4 3 2 1 0Sector Count5) Sector Number (LBA 7-0) Register(Address–1F3h[173h];Offset 3)This register contains the starting sector number or bits 7-0 of the Logical Block Address (LBA)for any CompactFlash Storage Card data access for the subsequent command.BIT DESCRIPTION - CHS7 6 5 4 3 2 1 0Sector (7: 0)LBA7 6 5 4 3 2 1 0LBA (7 : 0)6) Cylinder Low (LBA 15-8 )Register (Address–1F4h[174h];Offset 4)This register contains the low order 8 bits of the starting cylinder address or bits 15-8 of theLogical Block Address.DIT DESCRIPTION-CHS7 6 5 4 3 2 1 0Cylinder ( 7: 0 )LBA7 6 5 4 3 2 1 0LBA ( 15 : 8 )7) Cylinder High(LBA 23–16)Register(Address–1F5h[175h]; Offset 6)This register contains the high order bits of the starting cylinder address or bits 23-16 of theLogical Block Address.BIT DESCRIPTION-CHS7 6 5 4 3 2 1 0Cylinder ( 15 :8 )LBA7 6 5 4 3 2 1 0LBA ( 23 : 16 )8) Status/Alternate Status Register(Address 1F7h[177h]/3F6h[376h];Offset 7/ Eh)These registers return the CompactFlash Storage Card status when read by the host. Readingthe Status register does clear a pending interrupt, while reading the Alternate Status register does not. The status bits are described as follows:D7 D6 D5 D4 D3 D2 D1 D0 BUSY RDY DWF DSC DRQ CORR 0 ERRStatus & Alternate Status RegisterBit 7 (BUSY): the busy bit is set when the CompactFlash Storage Card has access to thecommand buffer and registers and the host is locked out from accessing the commandregister and buffer. No other bits in this register are valid when this bit is set to a 1.Bit 6 (DRDY): DRDY indicates whether the device is capable of performing CompactFlash Storage Card operations. This bit is cleared at power up and remains cleared until the CompactFlash Storage Card is ready to accept a command.Bit 5 (DWF): This bit, if set, indicates a write fault has occurred.Bit 4 (DSC): This bit is set when the CompactFlash Storage Card is ready.Bit 3 (DRQ): The Data Request is set when the CompactFlash Storage Card requires theinformation to be transferred either to or from the host through the Data register.Bit 2 (CORR): This bit is set when a Correctable data error has been encountered and the data has been corrected. This condition does not terminate a multi-sector read operation.Bit 1 (IDX): This bit is always set to 0.Bit 0 (ERR): This bit is set when the previous command has ended in some type of error. The bits in the Error register contain additional information describing the error. It is recommendedthat media access commands (such as Read Sectors and Write Sectors) that end with anerror condition should have the address of the first sector in error in the command blockregisters.9) Device Control Register( Address – 3F6h[376h]; Offset Eh)This register is used to control the CompactFlash Storage Card interrupt request and to issue an ATA soft reset to the card. This register can be written even if the device is BUSY. The bits are defined as follows:D& D6 D5 D4 D3 D2 D1 D0-IEn 0 X X X X 1RstSWDevice Control RegisterBit 7: this bit is an X (don’t care).Bit 6: this bit is an X (don’t care).Bit 5: this bit is an X (don’t care).Bit 4: this bit is an X (don’t care).Bit 3: this bit is ignored by the CompactFlash Storage Card.Bit 2 (SW Rst): this bit is set to 1 in order to force the CompactFlash Storage Card to perform an AT Disk controller Soft Reset operation. This does not change the PCMCIA CardConfiguration Registers (4.3.2 to 4.3.5) as a hardware Reset does. The Card remains inReset until this bit is reset to ‘0.’Bit 1 (-IEn): the Interrupt Enable bit enables interrupts when the bit is 0. When the bit is 1,The interrupts from the CompactFlash Storage Card are disabled. This bit also controls the Int bit in the Configuration and Status Register. This bit is set to 0 at power on and Reset.Bit 0: this bit is ignored by the CompactFlash Storage Card.10) Card (Drive) Address Register(Address 3F7h[377h]; Offset Fh)This register is provided for compatibility with the AT disk drive interface. It is recommended that this register not be mapped into the host’s I/O space because of potential conflicts on Bit 7. The bits are defined as follows:D7 D6 D5 D4 D3 D2 D1 D0X -WTG -HS3 -HS2 -HS1 -HS0 -nDS1 -nDS0Card (Drive) Address RegisterBit 7: this bit is in High Imoedence..Implementation Note:Conflicts may occur on the host data bus when this bit is provided by a Floppy Disk Controlleroperating at the same addresses as the CompactFlash Storage Card. Following are somepossible solutions to this problem for the PCMCIA implementation:1) Locate the CompactFlash Storage Card at a non-conflicting address, i.e. Secondaryaddress (377) or in an independently decoded Address Space when a Floppy Disk Controlleris located at the Primary addresses.2) Do not install a Floppy and a CompactFlash Storage Card in the system at the same time.3) Implement a socket adapter, which can be programmed to (conditionally) tri-state D7 of I/0address 3F7h/377h when a Compact Flash Storage Card is installed and conversely to tri-stateD6-D0 of I/O address 3F7h/377h when a floppy controller is installed.4) Do not use the CompactFlash Storage Card’s Drive Address register. This may beaccomplished by either a) If possible, program the host adapter to enable only I/O addresses1F0h-1F7h, 3F6h (or 170h-177h, 176h) to the CompactFlash Storage Card or b) if provideduse an additional Primary / Secondary configuration in the CompactFlash Storage Cardwhich does not respond to accesses to I/O locations 3F7h and 377h. With either of theseimplementations, the host software must not attempt to use information in the Drive AddressRegister.Bit 6 (-WTG): this bit is 0 when a write operation is in progress, otherwise, it is 1.Bit 5 (-HS3): this bit is the negation of bit 3 in the Drive/Head register.Bit 4 (-HS2): this bit is the negation of bit 2 in the Drive/Head register.Bit 3 (-HS1): this bit is the negation of bit 1 in the Drive/Head register.Bit 2 (-HS0): this bit is the negation of bit 0 in the Drive/Head register.Bit 1 (-nDS1): this bit is 0 when drive 1 is active and selected.Bit 0 (-nDS0): this bit is 0 when the drive 0 is active and selected.4. ATA COMMANDCF-ATA Command SetTable summarizes the CF-ATA command set with the paragraphs that follow describing theindividual commands and the task file for each.Table:CF-ATA Command SetClass COMMAND Code FR SC SN CY DH LBA1 Check Power Mode E5h or 98h - - - - D -Diagnostic90h - - - - D - DriveExecute1Track 50h - Y - Y Y Y 2FormatIdentifyDrive ECh - - - - D - 11 Idle E3h or 97h - Y - - D -1 Idel Immediate E1h or 95h - - - - D -91h - Y - - Y - ParametersInitializeDrive1ReadBuffer E4h - - - - D - 11 Read Long Sector 22h or 23h - - Y Y Y YMultiple C4h - Y Y Y Y Y Read11 Read Sector(s) 20h or 21h - Y Y Y Y Y1 Read Verify Sector(s) 40h or 41h - Y Y Y Y YRecalibrate 1Xh - - - - D - 1Sence 03h - - - - D - Request1Seek 7Xh - - Y Y Y Y 1Features EFh Y - - - D - Set11 Set Multiple Mode C6h - Y - - D -1 Set Sleep Mode E6h or 99h - - - - D - 1 Stand ByE2h or 96h - - - - D - 1Stand By ImmediateE0h or 94h ----D-1 Translate Sector 87h - Y Y Y Y Y 1 Wear Level F5h - - - - Y -2 Write Buffer E8h - - - -- D - 2Write Long Sector32h or 33h --YYYY3 Write Multiple C5h- Y Y Y Y Y 3 WriteMultiple w/o Erase CDh - Y Y Y Y Y 2 Write Sector(s)30h or 31h- Y Y Y Y Y 2Write Sector(s) w/o Erase 38h-YYYYY3 Write Verify 3Ch- Y Y Y Y YDefinitions:--FR = Features Register --SC = Sector Count Register --SN = Sector Number Register --CY = Cylinder Registers--DH = Card/Drive/Head Register--LBA = Logical Block Address Mode Supported (see command descriptions for use).--Y - The register contains a valid parameter for this command. For the Drive/Head Register Ymeans both the CompactFlash Storage Card and head parameters are used; D - only the CompactFlash Storage Card parameter is valid and not the head parameter. Check Power Mode – 98h or E5hBit-> 7 6 5 4 3 2 1 0 Command(7)98h or E5hC/D/H(6) X Drive X Cly High(5) X Cly Low(4) X Sec Num(3) X Sec Cnt(2)XFeature(1) XCheck Power ModeThis command checks the power mode. f the CompactFlash Storage Card is in, going to, or recovering from the sleep mode, the CompactFlash Storage Card sets BSY, sets the Sector Count Register to 00h, clears BSY and generates an interrupt. If the CompactFlash Storage Card is in Idle mode, the CompactFlash Storage Card sets BSY, sets the Sector Count Register to FFh, clears BSY and generates an interrupt.Execute Drive Diagnostic – 90hBit-> 7 6 5 4 3 2 1 0 Command(7) 90h C/D/H(6) X DriveXCyl High(5) XCyl Low(4) XSec Num(3) XSec Cnt(2) XFeature(1) XExecute Drive DiagnosticThis command performs the internal diagnostic tests implemented by the CompactFlash Storage Card.If in PCMCIA configuration this command runs only on the CompactFlash Storage Card which is addressed by the Drive/Head register when the diagnostic command is issued. This is because PCMCIA card interface does not allows for direct inter-drive communication (such as the ATA PDIAG and DASP signals). If in True IDE Mode the Drive bit is ignored and the diagnostic command is executed by both the Master and the Slave with the Master responding with status for both devices.The Diagnostic codes shown in Table 39 are returned in the Error Register at the end of the command.Diagnostic CodesCode ERROR TYPE01h No Error Detected02h Formatter Device Error03h Sector Buffer Error04h ECC Circuitry Error05h Controlling Microprocessor Error8Xh Slave Error in True IDE ModeErase Sector(s) – C0hBit-> 7 6 5 4 3 2 1 0 Command(7) C0h C/D/H(6) 1 LBA 1 Drive Head(LBA27-24)Cyl High(5) Cylinder High (LBA 23-16)Cyl Low(4) Cylinder Low (LBA 15-8)Sec Num(3) Sector Number (LBA 7-0 )Sec Cnt(2) Sector CountFeature(1) XErase SectorThis command is used to pre-erase and condition data sectors in advance of a Write withoutErase or Write Multiple without Erase command. There is no data transfer associated with thiscommand but a Write Fault error status can occur.Format Track -50hBit-> 7 6 5 4 3 2 1 0 Command(7) 50hC/D/H(6) 1 LBA 1 Drive Head(LBA27-24)Cyl High(5) Cylinder High (LBA 23-16)Cyl Low(4) Cylinder Low (LBA 15-8)Sec Num(3) X (LBA 7-0 )Sec Cnt(2) Count (LBA mode only)Feature(1) XFormat TrackThis command writes the desired head and cylinder of the selected drive with a vendor unique data pattern (typically FFh or 00h).To remain host backward compatible, the CompactFlash Storage Card expects a sector buffer of data from the host to follow the command with the same protocol as the Write Sector(s) command although the information in the buffer is not used by the CompactFlash Storage Card.If LBA=1 then the number of sectors to format is taken from the SecCnt register (0=256). The use of this command is not recommended.Identify Drive - EChBit-> 7 6 5 4 3 2 1 0 Command(7) ECh C/D/H(6) X X X Drive XCyl High(5) XCyl Low(4) XSec Num(3) XSec Cnt(2) XFeature(1) XIdentify DriveThe Identify Drive command enables the host to receive parameter information from theCompactFlash Storage Card. This command has the same protocol as the Read Sector(s)command. The parameter words in the buffer have the arrangement and meanings defined inTable . All reserved bits or words are zero. Table 40 is the definition for each field in theIdentify Drive Information.Table: Identify Drive InformationWord Address DefaultValueTotalBytesData Field Type Information0 848Ah 2 Generalconfiguration – signature for the CompactFlash Storage Card1 xxxxh2 Default number of cylinders2 0000h 2 Reserved3 00xxh 2 Default number of heads4 xxxxh 2 Number of unformatted bytes per track5 xxxxh 2 Number of unformatted bytes per sector6 xxxxh 2 Default number of sectors per track7-8 xxxxh 4 Number of sectors per card (Word 7 = MSW , word 8 = LSW)9 xxxxh 2VendorUnique10-19 aaaa 20 Serial number in ASCII (Right Justified )type20 xxxxh 2 Buffer21 xxxxh 2 Buffer size in 512 byte increments22 0004h 2 # of ECC bytes passed on Read/Write Long Commands23-26 aaaa 8 Firmware revision in ASCII. Big Endian Byte Order in Word27-46 aaaa 40 Model number in ASCII (Left Justified) Big Endian Byte Order in Word47 xxxxh 2 Maximum number of sectors on Read/Write Mutliple command48 0000h 2 Double Word not supported49 xx00h 2 Capabilities50 0000h 2 Reserved51 0x00h 2 PIO data transfer cycle timing mode52 0000h 2 DMA data transfer cycle timing mode53 0001h 2 Translation parameters are valid54 Xxxxh 2 Current numbers of cylinders55 xxxxh 2 Current numbers of heads56 xxxxh 2 Current sectors per track57-58 xxxxh 4 Current capacity in sectors(LBAs)(Word 57 = LSW , Word 58 = MSW)59 010xh 2 Multiple sector setting60-61 xxxxh 4 Total number of sectors addressable in LBA Mode62-127 0000h 138 Reservedstatus128 xxxxh 2 Security129-159 0000h 64 Vendor unique bytes160 xxxxh 2 Power requirement description161-255 0000h 170 ReservedIdle – 97h or E3hBit-> 7 6 5 4 3 2 1 0 Command(7) 97h or E3hC/D/H(6) X Drive XCyl High(5) XCyl Low(4) XSec Num(3) XSec Cnt(2) Timer Count (5 mess increments)Feature(1) XIdleThis command causes the CompactFlash Storage Card to set BSY, enter the Idle mode, clearBSY and generate an interrupt. If the sector count is non-zero, it is interpreted as a timer count with each count being 5 milliseconds and the automatic power down mode is enabled. If the sector count is zero, the automatic power down mode is disabled. Note that this time base (5msec) is different from the ATA specification.Idle Immediate – 95h or E1hBit-> 7 6 5 4 3 2 1 0 Command(7) 95h or E1hC/D/H(6) X Drive XCyl High(5) XCyl Low(4) XSec Num(3) XSec Cnt(2) XFeature(1) XIdle ImmediateThis command causes the CompactFlash Storage Card to set BSY, enter the Idle mode, clearBSY and generate an interrupt.Initialize Drive Parameters – 91hBit-> 7 6 5 4 3 2 1 0 Command(7) 91h C/D/H(6) X 0 X Drive Max Head(no. of heads-1)Cyl High(5) XCyl Low(4) XSec Num(3) XSec Cnt(2) Number of SectorsFeature(1) XInitialize Drive ParametersThis command enables the host to set the number of sectors per track and the number of heads per cylinder. Only the Sector Count and the Card/Drive/Head registers are used by this command.Read Buffer –E4hBit-> 7 6 5 4 3 2 1 0 Command(7) E4h C/D/H(6) X Drive XCyl High(5) XCyl Low(4) XSec Num(3) XSec Cnt(2) XFeature(1) XRead BufferThe Read Buffer command enables the host to read the current contents of the CompactFlashStorage Card’s sector buffer. This command has the same protocol as the Read Sector(s) command.。
福斯定位器配置指南
福斯定位器配置指南福斯(FLOWSERVE)阀门定位器调试方法(锦菲特I3599429OO2)[Q-Q,6696 22933]flowserve阀门、Flowserve 3400IQ定位器、LOGIX500、LOGIX510、LOGIX520、D3系列P-5 气动定位器电动气动数字- 通用,IS 和EXHART、Profibus、Foundation 现场总线反馈机组、限位开关比如PP5XX-HPGU-23K01-PV9DA-3ZPMV P-1700 系列阀门专为腐蚀或高温环境应用设计,其所有外部零件均由不锈钢制造而成。
P-1700 和1720 型阀门的内部零件采用不锈钢制造,而P-1710 和P-1730 型阀门的内部零件则采用铝制。
P-1720 和P-1730 型阀门具有超高的空气传送能力。
P-1700 系列阀门专为双向操作应用设计,不过也可通过旋动一个阀座轻松实现单向操作。
不锈钢磁场外壳内的PMV I/P 转换器很容易安装在P-1700 系列阀门上。
P-1500 P-1520P-1700 P-1720P-1710 P-1730Digital具有PID 控制的2000 数字定位器品牌Logix说明福斯Logix 2000 是一款具有板载PID 控制的数字定位器。
通信方式为4-20mA 或Modbus。
阀门上安装的PID 控制器每秒更新阀杆位置16 次,从而减少了控制系统延迟。
Logix3200IQ 数字定位器3200IQ-10-D6-M-04-40-0G-0F3200IQ-10-D6-M-04-40-0G-00品牌Logix说明福斯Logix 3200IQ 数字HART? 定位器使用先进的piezo 技术提供一流的性能和可靠性。
通过使用本地按钮、HART 手持设备和SoftTools软件可轻松配置Logix 3200IQ。
LOGIX 3201IQ定位器P/N:215809.999.000,SN:4107028LOGIX 3202IQ定位器P/N:221734.999.000,SN:4907010LOGIX 3203IQ定位器P/N:216428.999.000,SN:610727定位器P/N:215809.999.000,SN:55070043400IQ Digital Positioner品牌Logix说明The Flowserve Logix 3400 Series digital Foundation? Fieldbuspositioner utilizes state-of-the-art piezo technology to provide…500 数字定位器品牌Logix说明福斯Logix 500 数字定位器是下一代本质安全型Logix 500 系列的代表。
西安鸣士机电开发有限公 KMX 系列电磁吸盘用充退磁控制器 说明书
设定;
将对应的开关拨至 ON 的位置,控制器自动将连锁上下限按输出电压的 50%~40%设
定,若磁盘实际工作电流处在拨码开关两个电流门限之间,则按较低电流的档位设
定。(注意不得将两个或多个开关同时打开)
3.7 配合调节 W3、W4,可获得各种退磁曲线,使得不同的磁盘与工件取得满意的退磁
效果。提示:加工合金材料或热处理过的工件,或吸盘电感较大时,W3 可逆时针
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西安鸣士机电开发有限公司
6.保险管,压敏电阻均正常, 但充退磁无输出
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6.1 断电检查外部接线是否正确 6.2 检查外接电位器是否调至最小位置,若是,将其调
至中间位置,再上电,按需要将外接电位器调至 合适位置 6.3 检查 W2 电位器是否调至最小,若是,将 W2 调至 中间位置,拆除外接电位器,上电,再按需要将 W2 调至合适位置(1#,2#输出不要超过DC110V) 6.4 以上三条无误状态下,则断开输出端负载及外接调节电 位器,确保状态转换开关工作正常,输入端上电,延迟 约 1.5S 后,按以下要求测试,若符合下述情况,即可判 断充退磁控制器正常。 6.4.1 用万用表(DC20V档)测 5#与 10#之间的电压约为 15V左 右。 6.4.2 将开关置“充磁”档用万用表(DC500V档),测 1#、2# 之间输出电压(端子 1#为负)应为输入电压的 1.4 倍左 右;将开关置“停磁”档,输出电压应为零。将开关置 “退磁”档,输出电压应正反向振荡(幅值同充磁电压), 经过 3~18S后归零。
KMX-10/2-1 AC220V DC0~110V
SX440中文说明书
SX440发电机自动电压调节器使用手册版本 1.0日期:2015/06/29SX440版本历史记录:日期版本内容2015-06-29 1.0首次发行目录1.技术参数 (3)2.接线 (4)3.调节 (4)4.磁场初期电压诱起 (6)5.并网功能 (6)1.技术参数项目参数内容检测与电源输入电压190~264VAC单相二线频率50/60Hz以跨接铜片设定输出电压207VAC输入时最大90VDC电流连续4A,非连续为10秒内10A电阻最小15Ohm调压精度≤±1%(发动机转速变动在4%内)温差稳定度每℃变化,电压漂移0.05%外部电压调节用1K Ohms1Watt电位器时为±8%电压缓慢建立时间2秒DROOP无功调差最高灵敏度0.07A对应5%压降(PF=0时)最大输入0.33A 电压建立在AVR输入端子需剩磁电压5VAC以上消耗功率最大12Watt低频保护出厂预设:95%Hz斜率:下降至30Hz时为170%电压修正最大输入:±5VDC(模拟输入)灵敏度:每1VDC可调节5%发电机电压输入电阻:1K Ohm电流补偿负载:10Ohm尺寸150mm L*135mm W*48mm H重量0.45KG±2%2.接线2.1.K1、K2:为磁场开关,不使用时须短路跨接。
2.2.P2、P3:为磁场电源输入端子。
2.3.3、2:为检测电源输入端子。
2.4.1、2:为外接VR,不使用时须短路跨接。
2.5.X、XX:X磁场+端、XX磁场−端。
2.6.S1、S2:DROOP CT输入端。
2.7.A1、A2:VAR/PF控制输入(V/TRIM)。
2.8.AB、C:90KW以下A、C跨接,90KW~550KW B、C跨接,550KW以上A、B跨接。
2.9.J1~J8:选择跨接线2-3、4-5、6-7。
(如图二)2.10.建议:使用一较高遮断容量之保险加装于励磁场电源,熔丝容量须依实际满载励磁场电流的120%。
FDMM煤磨收尘说明
目录一、产品简介 2二、工作原理 2三、性能特点 2四、袋收尘的控制 4五、型号说明 5六、选型参数及选型原则 5七、技术性能表 6八、供货范围10九、售后服务10十、运行与维护注意事项10 十一、设备外形及基础图11FDMM系列煤粉袋式收尘器1、FDMM型系列煤粉袋式收尘器是合肥丰德科技有限公司在消化吸收国内外同类产品最新技术的基础上研制开发的新一代防爆型高效环保袋式收尘器。
该设备采用高压大流量脉冲阀和逐条滤袋脉冲清灰技术,除尘效率高达99.99%,其技术性能具有国内领先水平,该产品被广泛应用于各行各业的煤粉制备系统。
本公司以先进的结构设计和优良的制造工艺,确保产品质量上乘、换袋方便、设备能长期高效运行,收尘率高达99.99%以上。
2、FDMM型煤粉袋式收尘器采用负压操作、外滤形式、高压大流量脉冲加文氏管诱导式脉喷清灰,同时具有惯性除尘和袋式除尘两种功能。
2.1除尘含尘气体进入预收尘室,粗颗粒粉尘在撞击导流板和重力作用下落入灰斗,实现惯性除尘;而含有较细粉尘的气体则流入装有滤袋的过滤室,经滤袋过滤后的洁净气体经过净气室、排风道、由风机排出,滤袋外的积尘经脉喷清灰落入灰斗。
2.2清灰本设备采用高压大流量脉冲加文氏管诱导式反吹风清灰,通过对逐条滤袋内部吹入大流量脉动气流,既可将滤袋外附着粉尘抖落,又可由里向外吹透滤袋,清灰效率高,产品性能稳定。
3、3.1煤粉特性介绍煤粉在输送、粉磨与收尘过程中的主要危害是易燃易爆,高浓度煤粉在输送、收尘过程中燃烧和爆炸的危险性更大,而引起煤粉燃烧的主要原因常见于煤粉的自燃及外来火源。
煤粉的自燃主要决于以下几个因素:环境温度、煤粉浓度、煤粉细度、煤粉气体中的含氧量以及静电起火。
水泥厂煤粉制备系统烟气具有以下一些特征:3.1.1入口浓度高。
以往采用二级收尘时煤粉收尘系统入口浓度一般控制在60g/Nm3以下,而采用一级收尘时,其收尘浓度可高达1000g/Nm3以上,处于煤粉的可燃与爆炸范围(国内外资料表明,煤粉浓度的可燃与爆炸范围为40~2000g/Nm3)。
常州蒸汽预付费控制仪表参数
常州蒸汽预付费控制仪表参数常州蒸汽预付费控制仪表是一种非常重要的设备,它能够实现对蒸汽供应的精确计量和预付费管理,成为工业和商业领域的财务效益保障。
下面就为大家介绍常州蒸汽预付费控制仪表的相关参数。
一、基本参数1、计量范围:0-999999.9吨2、精度等级:1.0级、2.5级3、额定电压:AC220V4、电源电流:≤60mA5、环境温度:-10℃~+45℃6、相对湿度:≤95%7、输出接口:RS485通讯接口8、通讯协议:MODBUS二、外观参数1、材质:外壳采用优质铝合金材料制作,耐腐蚀、防水、防尘、防爆性能良好。
2、显示屏:采用超大液晶显示屏,具有高对比度、宽视角等特点,能够实现清晰明了的实时数据显示和操作指示。
3、尺寸:外形尺寸为220mm*130mm*70mm,体积小巧,便于安装和操作。
4、重量:仪表重量约为1.5kg,便于搬运和维护。
三、功能参数1、数据自动保存:预付费仪表能够自动保存当前的计量数据,保证数据不会因为意外断电等原因而丢失。
2、预警功能:预付费仪表能够提供针对超额使用、余额不足等情况的预警功能,以避免因为蒸汽不充足而造成的生产中断等问题。
3、报警功能:预付费仪表还配备了报警功能,当出现设备故障或非法使用预付费等问题时,仪表可以立即自动报警,以便及时维修和处理。
4、充值方便:预付费仪表具有在线充值和充值卡充值两种方式,使用方便灵活,满足不同用户的使用需求。
综上所述,常州蒸汽预付费控制仪表的参数非常丰富。
它具有材质性能优异、体积小巧、计量精度高等优点,在工业和商业领域得到了广泛应用,成为促进企业经济效益提升的关键设备之一。
消防流量传感器型号及参数详解
消防流量传感器型号及参数详解
消防流量传感器是一种能够实时监测消防设备中水流的设备,并将相应数据输出给消防控制系统以实现消防系统的智能化控制。
下面是常见的消防流量传感器型号及其参数的详细介绍:
1. FLSC-02型消防流量传感器
参数:
- 测量范围:0.1-6m/s
- 测量误差:≤±2%
- 工作压力:1.6MPa
- 工作温度:0-60℃
- 电气接口:M20*1.5
- 输出信号:4-20mA、RS485、HART协议、Modbus
2. FLS-LG/N型消防流量传感器
参数:
- 测量范围:0.05-10m/s
- 测量误差:≤±1%
- 工作压力:1.6MPa
- 工作温度:0-60℃
- 电气接口:1/2 NPT
- 输出信号:4-20mA、RS485、HART协议、Modbus
3. VHSB-N型消防流量传感器
参数:
- 测量范围:0.3-6m/s
- 测量误差:≤±2%
- 工作压力:1.6MPa
- 工作温度:0-60℃
- 电气接口:1/2 NPT
- 输出信号:4-20mA、RS485、HART协议、Modbus
4. TDWZ-N型消防流量传感器
参数:
- 测量范围:0.5-10m/s
- 测量误差:≤±2%
- 工作压力:1.6MPa
- 工作温度:0-60℃
- 电气接口:M20*1.5
- 输出信号:4-20mA、RS485、HART协议、Modbus
以上是一些比较常见的消防流量传感器型号及其参数介绍,具体选择时需要根据实际需要进行选择。
克劳斯玛菲注塑机说明书
页眉内容注塑机技术资料CVPET系列将操作说明书放在机器附近!目录0 前言0.1 0.1 文档用途 .......................................................................................................................................................... 0-2 0.2 技术资料的结构................................................................................................................................................ 0-2 0.3 技术资料的目标群 ............................................................................................................................................ 0-3 0.3.1 操作手册 .......................................................................................................................................................... 0-3 0.3.2 技术文档 .......................................................................................................................................................... 0-3 0.4 使用寿命 .......................................................................................................................................................... 0-3 0.5 用户评价 .......................................................................................................................................................... 0-4 0.6 担保条款 .......................................................................................................................................................... 0-4 0.7 培训.................................................................................................................................................................. 0-50.8 Krauss-Maffei地址........................................................................................................................................... 0-61 安全1-1 1.1 1-21.1.1 1-2 1.1.2 1-3 1.1.3 1-6 1.2 1-7 1.2.1 1-7 1.2.2 1-7 1.2.3 1-7 1.2.4 1-8 1.2.5 1-11 1.2.6 1-11 1.2.7 1-11 1.2.8 1-12 1.2.9 1-121-131-141-141-151-151-151-161-161-171-171-171-211-221.3 1-232 2-1 2.1 2-2 2.1.1 PET注塑机的结构 ........................................................................................................................................... 2-2 2.1.2 注塑装置 .......................................................................................................................................................... 2-3 2.1.3 塑化(3区螺杆)............................................................................................................................................. 2-4 2.2 高磨损性塑料及添加剂..................................................................................................................................... 2-7 2.2.1 锁模装置 .......................................................................................................................................................... 2-8 2.3 注塑................................................................................................................................................................ 2-10 2.3.1 注塑基本原理 ................................................................................................................................................. 2-10 2.4 PET注塑工艺................................................................................................................................................. 2-11 2.4.1 术语说明 ........................................................................................................................................................ 2-11 2.4.2 程序................................................................................................................................................................ 2-12 2.4.3 PET注塑件的注塑 ......................................................................................................................................... 2-142.4.6 注塑压力(注塑、保压及背压)..................................................................................................................... 2-21 2.4.7 注塑速度选择 ................................................................................................................................................. 2-23 2.5 PETFORM模具 ............................................................................................................................................. 2-24 2.5.1 模具冷却 ........................................................................................................................................................ 2-24 2.5.2 模具通风 ........................................................................................................................................................ 2-24 2.5.3 注嘴温度 ........................................................................................................................................................ 2-25 2.5.4 模具注口开启/闭合延迟 ............................................................................................................................... 2-27 2.6 PETFORM注塑机的标准............................................................................................................................... 2-28 2.6.1 材料温度 ........................................................................................................................................................ 2-28 2.6.2 进料区............................................................................................................................................................ 2-28 2.6.3 料筒及模具温度.............................................................................................................................................. 2-28 2.6.4 背压................................................................................................................................................................ 2-28 2.6.5 材料滞留时间 ................................................................................................................................................. 2-29 2.6.6 2-292.6.7 2-30 2.6.8 2-30 2.6.9 2-30 2.7 2-31 2.7.1 2-31 2.7.2 2-31 2.7.3 2-31 2.7.4 2-31 2.7.5 2-31 2.7.6 2-31 2.7.7 2-32 2.7.8 2-32 2.7.9 2-322-322.8 2-333 3-1 3.1 3-2 3.2 3-3 3.3 3-3 3.3.1 3-3 3.3.2 3-5 3.3.3 3-5 3.4 3-6 3.4.1 3-63.4.2 3-64 4-1 4.1 4-2 4.2 4-5 4.3 4-5 4.4 卸载.................................................................................................................................................................. 4-6 4.5 检查交货范围 ................................................................................................................................................... 4-6 4.6 预防性措施....................................................................................................................................................... 4-7 4.7 运输固定锁位置、机器吊杆孔及安装区............................................................................................................ 4-8 4.8 锁模装置的安装及对准..................................................................................................................................... 4-9 4.8.1 安装.................................................................................................................................................................. 4-9 4.8.2 对准................................................................................................................................................................ 4-10 4.9 注塑装置的安装及对准................................................................................................................................... 4-11 4.10 取件装置的安装及对准................................................................................................................................... 4-13 4.11 冷却水连接..................................................................................................................................................... 4-14 4.12 主开关的电气连接 .......................................................................................................................................... 4-155 机器说明5-1 5.1 使用符合规格的机器......................................................................................................................................... 5-2 5.2 开预点或接近点................................................................................................................................................ 5-2 5.3 机器安全 .......................................................................................................................................................... 5-3 5.3.1 安全装置 .......................................................................................................................................................... 5-3 5.3.2 防护面板 ........................................................................................................................................................ 5-10 5.3.3 机械式合模保护.............................................................................................................................................. 5-12 5.3.4 储压器............................................................................................................................................................ 5-14 5.3.5 检查安全装置 ................................................................................................................................................. 5-15 5.3.6 信息及警告标志的位置................................................................................................................................... 5-19 5.4 规格................................................................................................................................................................ 5-20 5.4.1 对安装位置、整机/电气装置的要求.............................................................................................................. 5-20 5.4.2 机器数据 ........................................................................................................................................................ 5-21 5.5 5-235.6 5-24 5.6.1 5-24 5.6.2 5-25 5.6.3 5-26 5.7 5-27 5.7.1 5-27 5.8 5-285.9 5-296 6-1 6.1 6-2 6.2 6-3 6.2.1 6-4 6.3 6-10 6.3.1 6-11 6.3.2 6-23 6.4 6-24 6.4.1 6-24 6.4.2 6-25 6.5 6-26 6.5.1 6-26 6.5.2 6-26 6.5.3 6-27 6.5.4 6-27 6.5.5 6-27 6.6 6-28 6.7 6-29 6.7.1 6-29 6.7.2 6-31 6.7.3 6-32 6.7.4 注塑装置前移 ................................................................................................................................................. 6-33 6.7.5 注塑装置退回 ................................................................................................................................................. 6-35 6.7.6 注塑................................................................................................................................................................ 6-37 6.7.7 塑化................................................................................................................................................................ 6-39 6.7.8 螺杆减压 ........................................................................................................................................................ 6-40 6.7.9 液压顶针后移/前移....................................................................................................................................... 6-41 6.8 功能模块 ........................................................................................................................................................ 6-42 6.9 确认,模具安装空间,操作员侧..................................................................................................................... 6-43 6.10 确认键5-S168,模具安装空间,操作员后侧 ................................................................................................. 6-43 6.11 确认键7-S904,取件装置安装空间,操作员侧.............................................................................................. 6-44 6.12 确认键7-S900,取件装置安装空间,端面..................................................................................................... 6-447.4 检查油位及平面正齿轮..................................................................................................................................... 7-3 7.5 启动/关闭注塑机 ............................................................................................................................................ 7-4 7.5.1 启动.................................................................................................................................................................. 7-4 7.5.2 关闭.................................................................................................................................................................. 7-5 7.6 输入授权,授予/撤销..................................................................................................................................... 7-5 7.6.1 输入授权 .......................................................................................................................................................... 7-5 7.6.2 撤销输入授权 ................................................................................................................................................... 7-5 7.7 打开/关闭机器元件......................................................................................................................................... 7-6 7.8 检查油泵马达的运转方向 ................................................................................................................................. 7-7 7.9 液压系统排气 ................................................................................................................................................... 7-8 7.9.1 进口过滤器....................................................................................................................................................... 7-8 7.9.2 7-87.9.3 7-10 7.10 7-11 7.11 7-13 7.12 7-177-17 7.13 7-197-197-20 7.14 7-227-237-257-257-267-26 7.15 7-277-277-287-29 8 8-1 8.1 8-2 8.2 8-3 8.3 8-3 8.3.1 8-3 8.3.2 8-4 8.3.3 8-4 8.3.4 8-5 8.4 8-6 8.4.1 8-7 8.4.2 8-10 8.4.3 开模................................................................................................................................................................ 8-13 8.4.4 锁模装置选择功能1 ....................................................................................................................................... 8-15 8.4.5 锁模装置选择功能2 ....................................................................................................................................... 8-17 8.4.6 锁模装置选择功能3 ....................................................................................................................................... 8-18 8.4.7 液压顶针 ........................................................................................................................................................ 8-19 8.4.8 气动顶针 ........................................................................................................................................................ 8-23 8.5 注塑装置 ........................................................................................................................................................ 8-24 8.5.1 注塑装置运动 ................................................................................................................................................. 8-24 8.5.2 注口保持接触时的循环................................................................................................................................... 8-27 8.5.3 注塑................................................................................................................................................................ 8-28 8.5.4 保压................................................................................................................................................................ 8-328.5.9 注塑装置选择功能2 ....................................................................................................................................... 8-43 8.5.10 注塑装置选择功能3 ....................................................................................................................................... 8-46 8.5.11 保压模块 ........................................................................................................................................................ 8-47 8.6 料筒温度 ........................................................................................................................................................ 8-49 8.6.1 功能及参数..................................................................................................................................................... 8-50 8.6.2 OD调节器...................................................................................................................................................... 8-51 8.6.3 料筒温度启动/降低....................................................................................................................................... 8-53 8.6.4 料筒温度控制参数 .......................................................................................................................................... 8-56 8.6.5 料筒/模具加热器的状态及错误信息符号 ...................................................................................................... 8-57 8.7 模具温度 ........................................................................................................................................................ 8-58 8.7.1 热流道............................................................................................................................................................ 8-58 8.7.2 8-598.7.3 8-60 8.7.4 8-63 8.8 8-68 8.8.1 8-68 8.8.2 8-69 8.8.3 8-72 8.8.4 8-73 8.8.5 8-74 8.8.6 8-75 8.9 8-77 8.9.1 8-77 8.9.2 8-80 8.9.3 8-81 8.9.4 8-83 8.9.5 8-84 8.9.6 8-85 8.9.7 8-87 8.10 8-888-888-908-918-938-948-958-968-978-1008-1018-103 8.10.12 删除公差范围 ............................................................................................................................................... 8-104 8.10.13 标记区.......................................................................................................................................................... 8-105 8.10.14 放大镜.......................................................................................................................................................... 8-107 8.10.15 监视实际曲线/曲线组................................................................................................................................. 8-109 8.10.16 曲线选择 ...................................................................................................................................................... 8-110 8.11 用户参数页面 ............................................................................................................................................... 8-111 8.11.1 标准化控制页面............................................................................................................................................ 8-111 8.11.2 参数页面 ...................................................................................................................................................... 8-114 8.11.3 参数放大显示屏............................................................................................................................................ 8-115 8.12 报警/事件................................................................................................................................................... 8-116 8.12.1 报警概观 ...................................................................................................................................................... 8-1168.12.6 设置事件日志 ............................................................................................................................................... 8-124 8.12.7 报警信息 ...................................................................................................................................................... 8-125 8.13 外围设备(ZE)........................................................................................................................................... 8-126 8.13.1 可自由编程输入............................................................................................................................................ 8-126 8.13.2 可自由编程输出............................................................................................................................................ 8-127 8.13.3 EUROMAP12/SPI接口(ZE) .................................................................................................................... 8-128 8.14 配置/诊断................................................................................................................................................... 8-129 8.14.1 语言转换 ...................................................................................................................................................... 8-130 8.14.2 配置实际值列 ............................................................................................................................................... 8-131 8.14.3 定义密码 ...................................................................................................................................................... 8-132 8.14.4 访问配置授权 ............................................................................................................................................... 8-1338-1348-1358-1378-1388-1398-1408-1418-1428-1438.15 8-1449 9-110 10-1 10.1 10-3 10.2 10-6 10.3 10-6 10.4 10-7 10.5 10-9 10.6 10-1010-1010-1110-12 10.7 10-13 10.8 10-1410-1410-1510-1710-18 10.9 10-2110-2110-22 10.9.3 油冷却器 ...................................................................................................................................................... 10-24 10.9.4 入口过滤器................................................................................................................................................... 10-26 10.9.5 细滤器.......................................................................................................................................................... 10-31 10.9.6 旁通过滤器................................................................................................................................................... 10-33 10.9.7 发气过滤器................................................................................................................................................... 10-35 10.10 冷却水系统................................................................................................................................................... 10-36 10.10.1 液压油冷却................................................................................................................................................... 10-36 10.10.2 料筒法兰冷却 ............................................................................................................................................... 10-37 10.10.3 模具冷却(附加设备)................................................................................................................................. 10-37 10.10.4 滤水器.......................................................................................................................................................... 10-37 10.10.5 流量控制器................................................................................................................................................... 10-3810.12.2 螺杆.............................................................................................................................................................. 10-46 10.12.3 回流阀门 ...................................................................................................................................................... 10-47 10.12.4 球形回流阀门 ............................................................................................................................................... 10-50 10.12.5 加热带.......................................................................................................................................................... 10-51 10.13 控制柜.......................................................................................................................................................... 10-51 10.13.1 滤垫.............................................................................................................................................................. 10-51 10.13.2 SR板 ........................................................................................................................................................... 10-53 10.14 储压器.......................................................................................................................................................... 10-5410.14.1 更换储压器................................................................................................................................................... 10-5411 外围设备/接口11-11 11.1 接口说明,取件装置....................................................................................................................................... 11-211-211-211-311-311-611-6 11.2 11-711-711-911-1011-1111-12 11.3 11-1311-1311-1311-13 11.4 11-1411-1411-14 11.5 11-1511-1511-15 12 12-1 12.1 12-212-312-812-912-11 12.2 12-1212-13 12.2.2 通过调制解调器进行远程诊断 ...................................................................................................................... 12-14 12.2.3 远程诊断文本页............................................................................................................................................ 12-15 12.3 磁卡(ZE89.6711,89.671)....................................................................................................................... 12-16 12.3.1 磁卡编程....................................................................................................................................................... 12-17 12.4 模具温度控制器............................................................................................................................................ 12-19 12.4.1 模具温度控制器1,外部 .............................................................................................................................. 12-19 12.4.2 模具温度控制器2,内部 .............................................................................................................................. 12-21 12.4.3 打开/关闭模具温度控制器.......................................................................................................................... 12-22 12.4.4 模具温度控制器的控制参数,内部 ............................................................................................................... 12-23 12.4.5 模具温度控制器降低温度 ............................................................................................................................. 12-24 12.4.6 模具温度控制器的状态符号及错误信息........................................................................................................ 12-2612.6 模具编码(ZE89.675)................................................................................................................................ 12-31 12.6.1 接口说明,模具编码..................................................................................................................................... 12-32 12.7 介质监视(ZE64.50).................................................................................................................................. 12-33 12.7.1 介质监视检查 ............................................................................................................................................... 12-34 12.8 抽芯、顶针及锁模装置显示.......................................................................................................................... 12-3512.9 电键开关、顶针/带开启安全门的模芯(8-S016) ..................................................................................... 12-3613 机器停用、存放及废弃处理13-1 13.1 安全规定 ........................................................................................................................................................ 13-2 13.2 对机器操作人员的要求................................................................................................................................... 13-2 13.3 关闭机器 ........................................................................................................................................................ 13-3 13.4 存放条件 ........................................................................................................................................................ 13-4 13.5 13-413.6 13-513-513-513-714 14-115 15-116 16-117 17-1 17.1 17-217.2 17-318 18-119 19-120 20-1。
塑料床层限制器规格参数
塑料床层限制器规格参数
1基本参数
塑料床层限制器具有以下基本参数:
*材料:ABS高分子材料。
*规格:通常有2.2M*2.2M、3M*3M和3.6M*3.6M三种,也可以按照客户的要求定制其他尺寸的床层限制器。
*颜色:灰色/蓝色/绿色/红色/橙色/黑色/白色/褐色/粉色/棕色/多彩色可供选择。
*厚度:典型的厚度约为10mm-20mm,也可以根据客户的要求调整厚度。
*产品重量:根据厚度不同,重量可达200-500kg.
2技术参数
塑料床层限制器具有以下技术参数:
*物理性能:耐候性良好,耐低温,耐热,耐油性,耐摩擦性,耐冲击性和硬度良好,低粘接性和耐腐蚀性强,不易变色,经久耐用;
*力学性能:通常情况下,其最大抗拉强度可达到150MPa以上,抗压强度达到15MPa以上,耐冲击强度可达到30MPa以上;
*绝缘性能:具有优异的绝缘性能,绝缘电阻率在20kV以上,耐电压可达到1000V以上;
*表面性能:表面光滑美观,无异物,良好的化学稳定性,耐磨性,无异味,无毒无害;
*环境保护性能:低碳环保,可回收利用,低噪音,无污染,可水洗或高压清洗,不易变质。
富士电机 PXH数字显示式调节器 说明书
-4-
1.2 设置及配线
· 本调节器适合于在下述的条件下设置。
环境温度 环境湿度 设置种类 污染度
-10~50°C
90%RH以下(应不结露)
Ⅱ
根据IEC 1010-1
2
· 请确保温度传感器与达到或产生下表所示电压值的场所之间,保持下表所示的爬电距离和空间距离。 无法满足上述要求时,EN61010的安全承诺可能无效。
·CD-ROM ..................................................... 1张
使用说明书
用户手册
通信功能使用说明书(Modbus) 通信示范程序
CD内容
参数装载器使用说明书
参数装载软件
·安装配件...................................................... 2个
Ch2
(控制参数).....................................39
Ch4
(控制参数组态) .............................40
Ch7
(监视器) ........................................42
Ch8
(输入输出定义) .............................42
-3-
使用前须知 安全注意事项
使用前请认真阅读该“安全注意事项”,正确使用本产品。 这里列出的注意事项记载着与安全有关的重要内容,请务必遵守。安全注意事项的等级分为“警告”和 “注意”。
警 告 如使用不当,可能导致死亡或者重伤。
注意
如使用不当,可能导致使用人员受伤及 发生物质损失。
菲格瑞思电磁流量计(大壳防爆)说明书
电磁流量计使用说明书北京菲格瑞思仪表有限公司特点:●国内首家将“模糊算法”技术应用于“电磁流量计”的测量,具备人工智能的性能。
●国内首家具有HART通讯功能的电磁流量仪表。
●Ex防爆设计,符合国家防爆技术要求,已通过鉴定验收,可应用与各类防爆场所。
●高阻快速响应设计,无失真采集微弱信号和快速反应流量变化,量程比可达100:1。
●具有低电导测量功能。
●国内首家采用电容式技术的空、满管检测技术,杜绝误报警的出现。
●具备转换器互换的一致性,无须重新输入参数。
●宽范围电源模式可供选择(DC:18V~36V AC:85V~265V)。
●国内首家采用出厂保存设置功能,使仪表各参数万无一失。
●采用国际领先的励磁技术,励磁电路简洁,稳定可靠。
●红外遥控功能以及按键操作,操作更加方便。
●提供传感器零点修正以及自动校零功能。
●全中文(英文)友好界面,满足各方使用要求。
●具备转换器本机自校、自检功能。
●具备防雷电保护设计电路。
高效抗干扰电路,适用各种恶劣环境。
●多种输出通讯接口可供选择:1.hart通讯(可选)2.RS485(Modbus 可选) 通讯接口3.profibus(可选)4.16位数字电流环 4~20mA输出5.0 ~10KHz频率输出6.脉冲当量输出执行标准、正常工作条件和型号命名执行标准: JB/T9248-1999 GB 3836.1-2000 GB 3836.2-2000 GB 3836.4-2000 正常工作条件:环境温度:-20℃~+55℃ 相对湿度:5%~90%供电电源:85~265AC 或18~36VDC 额定功率:小于10W工作原理传感器是根据法拉第电磁感应定律工作的,如图1所示:图1. 工作原理图当导电液体沿测量管在交变磁场与磁力线成垂直方向运动时,导电液体切割磁力线产生感应电势。
在与测量管轴线和磁场磁力线相互垂直的管壁上安装了一对检测电极,将这个感应电势检出。
若感应电势为E ,则有:E=BVD ⑴ 式中:B …磁感应强度;D …电极间的距离,与测量管内径相等; V …测量管内径被测流体在截面上的平均流速。
海德福斯 电比例阀(中文)
型号 PV08-31 PV70-31 PV72-31 PV76-31
手册页码 2.380.1 2.382.1 2.384.1 2.386.1
比例流量控制,常开
流量 38 lpm/10 gpm 87 lpm/23 gpm
型号 PV70-35 PV72-35
手册页码 2.432.1 2.434.1
比例流量控制,旁通,常闭
流量 22 lpm/6 gpm 30 lpm/8 gpm 64 lpm/17 gpm 151 lpm/40 gpm
型号 PV08-30 PV70-30 PV72-30 PV76-30A
手册页码 2.370.1 2.372.1 2.374.1 2.376.1
比例流量控制,旁通,常闭
流量
型号
手册页码
190 lpm/50 gpm PV42-M30 2.378.1
缩写符号:
比例压力控制,先导溢流,电流增 大压力增大
流量 95 lpm/25 gpm 189 lpm/50 gpm
型号 TS10-26 TS12-26
手册页码 2.852.1 2.854.1
0.002.3
截止阀 (典型)
电子比例阀—选型指导
比例压力控制,先导溢流,电流增 大压力减小
流量 19 lpm/5 gpm 76 lpm/20 gpm 189 lpm/50 gpm
—
推荐的电子控制器
仅指 PCB 板
铁盒式
零件编号 手册页码 零件编号 手册页码
4000046 4000141 4000143 4000144
3.426.1 3.427.1 3.428.1 3.429.1
4000049 4000124 4000130 4000133
HFDOM44P-XXXSX中文资料
1. PRODUCT OVERVIEWGEN ERAL DESCRIPTIONThe HFDOM44P-xxxSx series 44Pin Flash Disk Module is a flash technology based with True IDE interface flash memory card. It is constructed with flash disk controller chip and NAND-type (Samsung) flash memory device. The HFDOM44P-xxxSx series operates in both 3.3-Volt and 5.0-Volt power supplies. It comes in capacity of 16, 32, 64, 128, 192, 256, 384 MB and up to 512 MB formatted 44Pin type .By optimizing flash memory management, the life of this HFDOM44P-xxxSx series can be extended to its maximum level. Because the ECC function is included, the correctness of data transfer between the HFDOM44P-xxxSx series and a True IDE compatible interface device can be guaranteed.The HFDOM44P-xxxSx series is fully compatible with applications such as CPU card / board, set top box, industry / military PC / Notebook, security equipment, measuring instrument and embedded systems.FEATURES- True IDE compatible host interface- Direct plug in for 2.5″ IDE Connectors- 44 pin 2.0mm IDE Connector- Very high performance, very low power consumption- Automatic error correction- Support 3 power save mode : stop/idle/active- Support for CIS implemented with 256 bytes of attribute memory- 3.3V/5.0V operation voltage- Host data transfer rate : 20MB/s- Flash data transfer rate : 10MB/s- Host Interface bus width : 8/16 bit Access- Flash Interface bus width : 8 bit Access- Capacity : Min. 16MB ~ Max. 512MB- MTBF : 1,000,000 hours, minimum 30,000 insertions- Operating vibration : 15G peak to peak maximum- Operating shock : 1,000G maximumPRODUCT SPECIFICATIONSCapacities :16, 32, 64, 128, 192, 256, 384 and up to 512 MB (formatted)Power consumptions :Read mode 30 mA (typ), 40 Ma (Max)Write mode 30 mA (typ), 40 Ma (Max)Stop mode 30 uA (typ)Environment conditions :Operating temperature 0°C to + 60°CStorage temperature - 25°C to + 85°CRelative humidity 95%(Max)Mechanical conditions :Weight : Maximum 12.0gOperating Voltage :3.3V / 5.0V ±10%ELECTRICAL SPECIFICATIONSTable 1.1 Absolute Maximum RatingsSymbol Parameter Ratings UnitV DD Supply voltage - 0.3 to + 7.0 VV IN Input voltage - 0.3 to + 7.0 VI IN DC input current - 10 mAT STG Storage temperature - 20 to + 85 °CTable 1.2 Recommended Operating ConditionsSymbol Parameter Ratings Unit5V 4.75 to 5.25 V V DD DC Supply voltage3.3V 3.0 to 3.6 VT a Storage temperature - 20 to +70 °C Table 1.3 DC Characteristics (Ta=0°C to 70°C, V DD=3.0 to 5.3V)Symbol Parameter Min. Typ. Max. UnitI DD Operating Current 30 70 mAI ds Stop Current 50 150 µAV DD High Level Output Voltage 2.4 VV DD Low Level Output Voltage 0.4 V CAPACITY SPECIFICATIONSTable 1.4 Capacity SpecificationsPart Number Capacity (Unformatted)Total Sector Cylinders Heads Sectors HFDOM44P-016Sx 15,990,784 bytes31,232 61 16 32 HFDOM44P-032Sx 32,243,712 bytes62,976 123 16 32 HFDOM44P-064Sx 65,536,000 bytes128,000 250 16 32 HFDOM44P-128Sx 131,858,432 bytes257,536 503 16 32 HFDOM44P-192Sx 196,608,000 bytes384,000 750 16 32 HFDOM44P-256Sx 265,027,584 bytes517,632 1011 16 32 HFDOM44P-384Sx 395,837,440 bytes773,120 1510 16 32 HFDOM44P-512Sx 531,890,176 bytes1,038,848 2029 16 32PHYSYCAL SPECIFICATIONS52.3±0.3mm< View from connector side >±0.2mm 4.4±< View from Right side >Figure 1.1 44 pin Type Flash Disk Module DimensionsINSTALLTION GUIDE1) Setting Method①Make sure your computer is turned off before you open the case.②Plug the Flash Disk Module carefully into the 44pin IDE slot on your computer.Caution: Make sure to align pin1 on host adapter interface connector with pin 1 on your Flash Disk Module. Pin 1 is indicated by printed on the Flash Disk Module PCB.③The Flash Disk Module is not use power connector cable of the computer.Caution: If you need to remove your Flash Disk Module, use both hands to pull it out carefully.④Check all cable connections and then replace your computer cover.2) BIOS setting MethodBefore you format or partition your new drive, you must configure your computer's BIOS so that the computer can recognize your new drive.①Turn your computer on. As your computer start up, watch the screen for a message describing how to run thesystem setup program on the screen (sometimes called BIOS or CMOS setup). This is usually done by pressing a special key, such as Delete, Esc or F1 during startup. See your computer manual for details. Press theappropriate key to run the system setup program.②If your BIOS provides automatic drive detection (an "AUTO" drive type), select this option. ( Werecommend to use Normal / CHS mode to partition your Flash Disk Module to get the maximum formatted capacity. )This allows your computer to configure itself automatically for your new drive.If your BIOS dose not provide “AUTO” drive detection, select "User-defined" drive setting and enter the CHS values from the table. BIOS Settings (see specification) Capacity Cylinders Heads Sectors(unformatted)③Save the settings and exit the System Setup program. ( your computer will automatically reboot ) After youconfigure your computer, you can use the standard DOS commands to partition and format your Flash DiskModule, as described below.3) Formatting MethodTo partition your new Flash Disk Module with Microsoft DOS program :①Insert a bootable DOS diskette into your diskette drive and restart your computer.②Insert a DOS program diskette that contains the FDISK.EXE and programs into your diskette drive. Use the same DOS version that is on your bootable diskette. At the A:\ >prompt, type “FDISK”and press Enter.③Select “Create DOS partition or logical DOS drive” by pressing 1. Then press Enter.④Select “Create primary DOS partition” by pressing 1 again. Then press Enter.Create your first drive partition. If you are creating a partition that will be used to boot your computer (drive C), make sure that the partition is marked active.⑤Create an extended partition and additional logical drives as necessary, until all the space on your new hard drivehas been partitioned.⑥When the partitioning is complete, FDISK reboots your computer.Caution: Make sure to use the correct drive letters so that you do not format a drive that already contains data.⑦At the A:\ > prompt, type “format c:/s”, where c is the letter of your first new partition, Repeat the format processfor all the new partitions you have created.⑧After you format your drive, it is ready to use.2. PIN INFORMATIONPIN ASSIGNMENTS AND PIN TYPETable 2.1 Pin Assignment and Pin typePin Signal Pin Type Pin Signal Pin Type1 /RESET I2 GND Ground3 D07 I/O4 D08 I/O5 D06 I/O 6 D09 I/O7 D05 I/O 8 D10 I/O9 D04 I/O 10 D11 I/O11 D03 I/O 12 D12 I/O13 D02 I/O 14 D13 I/O15 D01 I/O 16 D14 I/O17 D00 I/O 18 D15 I/O19 GND DC 20 Key Pin --21 Reserved -- 22 GND Ground23 /IOW I 24 GND Ground25 /IOR I 26 GND Ground27 IORDY O 28 Reserved --29 Reserved -- 30 GND Ground31 IRQ O 32 /IOIS16 O33 A01 I 34 /PDIAG I/O35 A00 I 36 A02 I37 /CS0 I 38 /CS1 I39 /DASP(LED)I/O 40 GND Ground41 VCC Power 42 VCC Power43 GND Ground 44 Reserved --Signal DescriptionsTable 2.2 Signal DescriptionsSignal Name Dir. Pin DescriptionA[2:0] I 33,35,36 In True IDE Mode only A[2:0] are used to select the one of eight registers in the Task File, the remaining address lines should be grounded by the host.-PDIAG I/O34 This input / output is the Pass Diagnostic signal in the Master / Slave handshake protocol.-DASP(LED) I/O39 This signal used either to drive an LED whenever the Disk Module is being accessed or as indication of a second drive present. This signal is active low when the Disk Module is busy.-CS0, -CS1 I 37,38 CS0 is the chip select for the task file registers while CS2 is used to select the Alternate Status Register and the Device Control Register.D[15:00] I/O3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18All Task File operations occur in byte mode on the low order bus D00-D07while all data transfers are 16 bit using D00-D15.GND -- 2,19,22,24,26,30,40,43Ground.-IOR I 25 This is an I/O Read strobe generated by the host.-IOW I 23 The I/O Write strobe pulse is used to clock I/O data on the Card Data bus into the Storage Card controller registers when the Storage Card is configured to use the I/O interface. The clocking will occur on the negative to positive edge of the signal (trailing edge).IRQ O 31 In True IDE Mode signal is the active high Interrupt Request to the host. -RESET I 1 This input pin is the active low hardware reset from the host.VCC -- 41,42 +5 V, +3.3 V power.IORDY O 27 This output signal may be used as IORDY.-IOIS16 O 32 This output signal is asserted low when this device is expecting a word data transfer cycle.BLOCK DIAGRAMFigure 2.1 Flash Disk Module Block Diagram3. INTERFACE BUS TIMINGACCESS SPCIFICATIONS1) IDE MODE I/O ACCESS SPECIFICATIONSIn this True IDE Mode the Flash Disk Module protocol and configuration are disabled and only I/O operations to the Task File and Data Register are allowed. In this mode no Memory or Attribute Registers are accessible to the host.Table 3.1IDE Mode I/O Access ModeMode -CE2 -CE1 A2-A0 -IORD -IOWR D15 - D8 D7 – D0 Invalid Mode L L x x x High Z High ZStandby Mode H H x x x High Z High ZTask File Write H L 1-7h H L Don’t Care Data InTask File Read H L 1-7h L H High Z Data Out Data Register Write H L 0 H L Odd Byte in Even Byte in Data Register Read H L 0 L H Odd Byte out Even Byte out Control Register Write L H 6h H L Don’t Care Control In All Status Read L H 6h L H High Z Status OutTable 3.2IDE Mode I/O Read TimingParameter Symbol IEEE Symbol Min. ns Max. ns Data Delay after IORD td (IORD) tlGLQV 100Data Hold following IORD th (IORD) tlGHQX 0IORD Width Time tw (IORD) tlGLIGH 165Address Setup before IORD tsuA (IORD) tAVIGL 70Address Hold following IORD thA (IORD) tlGHAX 20CE Setup before IORD tsuCE (IORD) tELIGL 5CE Hold following IORD thCE (IORD) tlGHEH 20IOIS16 Delay Falling from Address tdfIOIS16 (ADR) tAVISL 35IOIS16 Delay Rising from Address tdrIOIS16 (ADR) tAVISH 35 NOTE: The maximum load on -IOIS16 is 1 LSTTL with 50pF total load. All times are in nanoseconds. Minimum time from –WAIT high to -IORD high is 0nsec, but minimum -IORD width must still be met.-CE-IORD-IOIS16DoutFigure 3.1IDE Mode I/O Read Timing ExampleTable 3.3IDE Mode I/O Write TimingParameter Symbol IEEE Symbol Min. ns Max. ns Data Setup before IOWR tsu(IOWR) tDVIWH 60Data Hold following IOWR th(IOWR) tlWHDX 30IOWR Width Time twI(OWR) tlWLIWH 165Address Setup before IOWR tsuA(IOWR) tAVIWL 70Address Hold following IOWR thA(IOWR) tlWHAX 20CE Setup before IOWR tsuCE(IOWR) tELIWL 5CE Hold following IOWR thCE(IOWR) tlWHEH 20IOIS16 Delay Falling from Address tdfIOIS16(ADR) tAVISL 35IOIS16 Delay Rising from Address tdrIOIS16(ADR) tAVISH 35 NOTE: The maximum load on -IOIS16 is 1 LSTTL with 50pF total load. All times are in nanoseconds. Minimum time from -WAIT high to -IOWR high is 0nsec, but minimum -IOWR width must still be met.A0-A10-CE-IOWR-IOIS16DinFigure 3.2IDE Mode I/O Write Timing ExampleHANBit HFDOM44P-xxxSxURL : www.hbe.co.kr 11 / 11 HANBit Electronics Co., Ltd. REV 1.0 (August.2002)Ordering InfomationNO Parts Size Capacity Media transfermodeChip Number Operation Mode 1 HFDOM44P-016S1 52.3x31.0x2.0mm 16Mbyte BYTE 1True IDE 2 HFDOM44P-032S1 52.3x31.0x2.0mmBYTE 1 True IDE3 HFDOM44P-032S2 52.3x31.0x2.0mm 32Mbyte BYTE 2 True IDE4 HFDOM44P-064S1 52.3x31.0x2.0mm BYTE 1 True IDE5 HFDOM44P-064S2 52.3x31.0x2.0mm BYTE 2 True IDE6 HFDOM44P-064S4 52.3x31.0x2.0mm 64Mbyte BYTE 4 True IDE7 HFDOM44P-128S1 52.3x31.0x2.0mm BYTE 1 True IDE8 HFDOM44P-128S2 52.3x31.0x2.0mm BYTE 2 True IDE9 HFDOM44P-128S4 52.3x31.0x2.0mm 128Mbyte BYTE 4 True IDE 10 HFDOM44P-192S3 52.3x31.0x2.0mm 192Mbyte BYTE 3 True IDE 11 HFDOM44P-256S2 52.3x31.0x2.0mmBYTE 2 True IDE12 HFDOM44P-256S4 52.3x31.0x2.0mm 256Mbyte BYTE 4 True IDE 13 HFDOM44P-384S3 52.3x31.0x2.0mm 384Mbyte BYTE 3 True IDE 14 HFDOM44P-512S4 52.3x31.0x2.0mm 512Mbyte BYTE 4 True IDE 元器件交易网。
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1. PRODUCT OVERVIEWGEN ERAL DESCRIPTIONThe HFDOM44P-xxxSx series 44Pin Flash Disk Module is a flash technology based with True IDE interface flash memory card. It is constructed with flash disk controller chip and NAND-type (Samsung) flash memory device. The HFDOM44P-xxxSx series operates in both 3.3-Volt and 5.0-Volt power supplies. It comes in capacity of 16, 32, 64, 128, 192, 256, 384 MB and up to 512 MB formatted 44Pin type .By optimizing flash memory management, the life of this HFDOM44P-xxxSx series can be extended to its maximum level. Because the ECC function is included, the correctness of data transfer between the HFDOM44P-xxxSx series and a True IDE compatible interface device can be guaranteed.The HFDOM44P-xxxSx series is fully compatible with applications such as CPU card / board, set top box, industry / military PC / Notebook, security equipment, measuring instrument and embedded systems.FEATURES- True IDE compatible host interface- Direct plug in for 2.5″ IDE Connectors- 44 pin 2.0mm IDE Connector- Very high performance, very low power consumption- Automatic error correction- Support 3 power save mode : stop/idle/active- Support for CIS implemented with 256 bytes of attribute memory- 3.3V/5.0V operation voltage- Host data transfer rate : 20MB/s- Flash data transfer rate : 10MB/s- Host Interface bus width : 8/16 bit Access- Flash Interface bus width : 8 bit Access- Capacity : Min. 16MB ~ Max. 512MB- MTBF : 1,000,000 hours, minimum 30,000 insertions- Operating vibration : 15G peak to peak maximum- Operating shock : 1,000G maximumPRODUCT SPECIFICATIONSCapacities :16, 32, 64, 128, 192, 256, 384 and up to 512 MB (formatted)Power consumptions :Read mode 30 mA (typ), 40 Ma (Max)Write mode 30 mA (typ), 40 Ma (Max)Stop mode 30 uA (typ)Environment conditions :Operating temperature 0°C to + 60°CStorage temperature - 25°C to + 85°CRelative humidity 95%(Max)Mechanical conditions :Weight : Maximum 12.0gOperating Voltage :3.3V / 5.0V ±10%ELECTRICAL SPECIFICATIONSTable 1.1 Absolute Maximum RatingsSymbol Parameter Ratings UnitV DD Supply voltage - 0.3 to + 7.0 VV IN Input voltage - 0.3 to + 7.0 VI IN DC input current - 10 mAT STG Storage temperature - 20 to + 85 °CTable 1.2 Recommended Operating ConditionsSymbol Parameter Ratings Unit5V 4.75 to 5.25 V V DD DC Supply voltage3.3V 3.0 to 3.6 VT a Storage temperature - 20 to +70 °C Table 1.3 DC Characteristics (Ta=0°C to 70°C, V DD=3.0 to 5.3V)Symbol Parameter Min. Typ. Max. UnitI DD Operating Current 30 70 mAI ds Stop Current 50 150 µAV DD High Level Output Voltage 2.4 VV DD Low Level Output Voltage 0.4 V CAPACITY SPECIFICATIONSTable 1.4 Capacity SpecificationsPart Number Capacity (Unformatted)Total Sector Cylinders Heads Sectors HFDOM44P-016Sx 15,990,784 bytes31,232 61 16 32 HFDOM44P-032Sx 32,243,712 bytes62,976 123 16 32 HFDOM44P-064Sx 65,536,000 bytes128,000 250 16 32 HFDOM44P-128Sx 131,858,432 bytes257,536 503 16 32 HFDOM44P-192Sx 196,608,000 bytes384,000 750 16 32 HFDOM44P-256Sx 265,027,584 bytes517,632 1011 16 32 HFDOM44P-384Sx 395,837,440 bytes773,120 1510 16 32 HFDOM44P-512Sx 531,890,176 bytes1,038,848 2029 16 32PHYSYCAL SPECIFICATIONS52.3±0.3mm< View from connector side >±0.2mm 4.4±< View from Right side >Figure 1.1 44 pin Type Flash Disk Module DimensionsINSTALLTION GUIDE1) Setting Method①Make sure your computer is turned off before you open the case.②Plug the Flash Disk Module carefully into the 44pin IDE slot on your computer.Caution: Make sure to align pin1 on host adapter interface connector with pin 1 on your Flash Disk Module. Pin 1 is indicated by printed on the Flash Disk Module PCB.③The Flash Disk Module is not use power connector cable of the computer.Caution: If you need to remove your Flash Disk Module, use both hands to pull it out carefully.④Check all cable connections and then replace your computer cover.2) BIOS setting MethodBefore you format or partition your new drive, you must configure your computer's BIOS so that the computer can recognize your new drive.①Turn your computer on. As your computer start up, watch the screen for a message describing how to run thesystem setup program on the screen (sometimes called BIOS or CMOS setup). This is usually done by pressing a special key, such as Delete, Esc or F1 during startup. See your computer manual for details. Press theappropriate key to run the system setup program.②If your BIOS provides automatic drive detection (an "AUTO" drive type), select this option. ( Werecommend to use Normal / CHS mode to partition your Flash Disk Module to get the maximum formatted capacity. )This allows your computer to configure itself automatically for your new drive.If your BIOS dose not provide “AUTO” drive detection, select "User-defined" drive setting and enter the CHS values from the table. BIOS Settings (see specification) Capacity Cylinders Heads Sectors(unformatted)③Save the settings and exit the System Setup program. ( your computer will automatically reboot ) After youconfigure your computer, you can use the standard DOS commands to partition and format your Flash DiskModule, as described below.3) Formatting MethodTo partition your new Flash Disk Module with Microsoft DOS program :①Insert a bootable DOS diskette into your diskette drive and restart your computer.②Insert a DOS program diskette that contains the FDISK.EXE and programs into your diskette drive. Use the same DOS version that is on your bootable diskette. At the A:\ >prompt, type “FDISK”and press Enter.③Select “Create DOS partition or logical DOS drive” by pressing 1. Then press Enter.④Select “Create primary DOS partition” by pressing 1 again. Then press Enter.Create your first drive partition. If you are creating a partition that will be used to boot your computer (drive C), make sure that the partition is marked active.⑤Create an extended partition and additional logical drives as necessary, until all the space on your new hard drivehas been partitioned.⑥When the partitioning is complete, FDISK reboots your computer.Caution: Make sure to use the correct drive letters so that you do not format a drive that already contains data.⑦At the A:\ > prompt, type “format c:/s”, where c is the letter of your first new partition, Repeat the format processfor all the new partitions you have created.⑧After you format your drive, it is ready to use.2. PIN INFORMATIONPIN ASSIGNMENTS AND PIN TYPETable 2.1 Pin Assignment and Pin typePin Signal Pin Type Pin Signal Pin Type1 /RESET I2 GND Ground3 D07 I/O4 D08 I/O5 D06 I/O 6 D09 I/O7 D05 I/O 8 D10 I/O9 D04 I/O 10 D11 I/O11 D03 I/O 12 D12 I/O13 D02 I/O 14 D13 I/O15 D01 I/O 16 D14 I/O17 D00 I/O 18 D15 I/O19 GND DC 20 Key Pin --21 Reserved -- 22 GND Ground23 /IOW I 24 GND Ground25 /IOR I 26 GND Ground27 IORDY O 28 Reserved --29 Reserved -- 30 GND Ground31 IRQ O 32 /IOIS16 O33 A01 I 34 /PDIAG I/O35 A00 I 36 A02 I37 /CS0 I 38 /CS1 I39 /DASP(LED)I/O 40 GND Ground41 VCC Power 42 VCC Power43 GND Ground 44 Reserved --Signal DescriptionsTable 2.2 Signal DescriptionsSignal Name Dir. Pin DescriptionA[2:0] I 33,35,36 In True IDE Mode only A[2:0] are used to select the one of eight registers in the Task File, the remaining address lines should be grounded by the host.-PDIAG I/O34 This input / output is the Pass Diagnostic signal in the Master / Slave handshake protocol.-DASP(LED) I/O39 This signal used either to drive an LED whenever the Disk Module is being accessed or as indication of a second drive present. This signal is active low when the Disk Module is busy.-CS0, -CS1 I 37,38 CS0 is the chip select for the task file registers while CS2 is used to select the Alternate Status Register and the Device Control Register.D[15:00] I/O3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18All Task File operations occur in byte mode on the low order bus D00-D07while all data transfers are 16 bit using D00-D15.GND -- 2,19,22,24,26,30,40,43Ground.-IOR I 25 This is an I/O Read strobe generated by the host.-IOW I 23 The I/O Write strobe pulse is used to clock I/O data on the Card Data bus into the Storage Card controller registers when the Storage Card is configured to use the I/O interface. The clocking will occur on the negative to positive edge of the signal (trailing edge).IRQ O 31 In True IDE Mode signal is the active high Interrupt Request to the host. -RESET I 1 This input pin is the active low hardware reset from the host.VCC -- 41,42 +5 V, +3.3 V power.IORDY O 27 This output signal may be used as IORDY.-IOIS16 O 32 This output signal is asserted low when this device is expecting a word data transfer cycle.BLOCK DIAGRAMFigure 2.1 Flash Disk Module Block Diagram3. INTERFACE BUS TIMINGACCESS SPCIFICATIONS1) IDE MODE I/O ACCESS SPECIFICATIONSIn this True IDE Mode the Flash Disk Module protocol and configuration are disabled and only I/O operations to the Task File and Data Register are allowed. In this mode no Memory or Attribute Registers are accessible to the host.Table 3.1IDE Mode I/O Access ModeMode -CE2 -CE1 A2-A0 -IORD -IOWR D15 - D8 D7 – D0 Invalid Mode L L x x x High Z High ZStandby Mode H H x x x High Z High ZTask File Write H L 1-7h H L Don’t Care Data InTask File Read H L 1-7h L H High Z Data Out Data Register Write H L 0 H L Odd Byte in Even Byte in Data Register Read H L 0 L H Odd Byte out Even Byte out Control Register Write L H 6h H L Don’t Care Control In All Status Read L H 6h L H High Z Status OutTable 3.2IDE Mode I/O Read TimingParameter Symbol IEEE Symbol Min. ns Max. ns Data Delay after IORD td (IORD) tlGLQV 100Data Hold following IORD th (IORD) tlGHQX 0IORD Width Time tw (IORD) tlGLIGH 165Address Setup before IORD tsuA (IORD) tAVIGL 70Address Hold following IORD thA (IORD) tlGHAX 20CE Setup before IORD tsuCE (IORD) tELIGL 5CE Hold following IORD thCE (IORD) tlGHEH 20IOIS16 Delay Falling from Address tdfIOIS16 (ADR) tAVISL 35IOIS16 Delay Rising from Address tdrIOIS16 (ADR) tAVISH 35 NOTE: The maximum load on -IOIS16 is 1 LSTTL with 50pF total load. All times are in nanoseconds. Minimum time from –WAIT high to -IORD high is 0nsec, but minimum -IORD width must still be met.-CE-IORD-IOIS16DoutFigure 3.1IDE Mode I/O Read Timing ExampleTable 3.3IDE Mode I/O Write TimingParameter Symbol IEEE Symbol Min. ns Max. ns Data Setup before IOWR tsu(IOWR) tDVIWH 60Data Hold following IOWR th(IOWR) tlWHDX 30IOWR Width Time twI(OWR) tlWLIWH 165Address Setup before IOWR tsuA(IOWR) tAVIWL 70Address Hold following IOWR thA(IOWR) tlWHAX 20CE Setup before IOWR tsuCE(IOWR) tELIWL 5CE Hold following IOWR thCE(IOWR) tlWHEH 20IOIS16 Delay Falling from Address tdfIOIS16(ADR) tAVISL 35IOIS16 Delay Rising from Address tdrIOIS16(ADR) tAVISH 35 NOTE: The maximum load on -IOIS16 is 1 LSTTL with 50pF total load. All times are in nanoseconds. Minimum time from -WAIT high to -IOWR high is 0nsec, but minimum -IOWR width must still be met.A0-A10-CE-IOWR-IOIS16DinFigure 3.2IDE Mode I/O Write Timing ExampleHANBit HFDOM44P-xxxSxURL : www.hbe.co.kr 11 / 11 HANBit Electronics Co., Ltd. REV 1.0 (August.2002)Ordering InfomationNO Parts Size Capacity Media transfermodeChip Number Operation Mode 1 HFDOM44P-016S1 52.3x31.0x2.0mm 16Mbyte BYTE 1True IDE 2 HFDOM44P-032S1 52.3x31.0x2.0mmBYTE 1 True IDE3 HFDOM44P-032S2 52.3x31.0x2.0mm 32Mbyte BYTE 2 True IDE4 HFDOM44P-064S1 52.3x31.0x2.0mm BYTE 1 True IDE5 HFDOM44P-064S2 52.3x31.0x2.0mm BYTE 2 True IDE6 HFDOM44P-064S4 52.3x31.0x2.0mm 64Mbyte BYTE 4 True IDE7 HFDOM44P-128S1 52.3x31.0x2.0mm BYTE 1 True IDE8 HFDOM44P-128S2 52.3x31.0x2.0mm BYTE 2 True IDE9 HFDOM44P-128S4 52.3x31.0x2.0mm 128Mbyte BYTE 4 True IDE 10 HFDOM44P-192S3 52.3x31.0x2.0mm 192Mbyte BYTE 3 True IDE 11 HFDOM44P-256S2 52.3x31.0x2.0mmBYTE 2 True IDE12 HFDOM44P-256S4 52.3x31.0x2.0mm 256Mbyte BYTE 4 True IDE 13 HFDOM44P-384S3 52.3x31.0x2.0mm 384Mbyte BYTE 3 True IDE 14 HFDOM44P-512S4 52.3x31.0x2.0mm 512Mbyte BYTE 4 True IDE 元器件交易网。