Tender For Supply And Installation Of Equipment For Performance Training And Analysis Centre For Para Athletics, jaipur-Rajasthan

Supply And Installation Of Equipment For Performance Training And Analysis Centre For Para Athletics Supply And Installation Of Equipment For Performance Training And Analysis Centre For Para Athletics At Jaipur And Jodhpur , Supply Installation&Commissioningofequipmentfortheperformance Training & Analysis Centre For Para-Athletes, Jaipur & Jodhpur , Ultra Para-Performance Treadmill For Wheelchair Athletes- • It Should Be Multifunctional Robust And Reliable Treadmill. • It Should Be Compatible With Ecg And Pulmonary Devices. • The System Should Be Equipped With Various Handrails And Suitable For Your Specific Stress Test Setting. • The System Should Be Used In Extreme Performance Option Available: ? High Speeds ? Negative Elevation ? Fall Stop • The System Should Be Equipped With An Extreme Speed Up To 40 Km/H. • It Should Be Unique Ultra Large Dimension. • The System Should Be Used In Specific Features Available: ? Versatile Interfacing With Perfect Communication. ? Robust Design To Withstand Continuous Heavy Use Up To 225 Kg. ? Smallest Adjustment Steps Of 0.1 Km/H. ? Optional Integrated Bpm And Spo2 Measurement. ? Standard Safety Lanyard And Service Friendly Belt Treadmill. ? Available With Positive Elevation 15%. ? Closed Loop Motor Control. • It Should Have The Following Specification: O Maximum Speed: 40 Km/H O Minimum Operational Speed: 01 Km/H O Speed Adjustment Steps: 0 Km/H O Positive Elevation: 25 % O Elevation Adjustment Steps: 0.5 % O Negative Elevation: -25 % • The Accuracy Should Be: • Speed Accuracy <2 Km/H: ± 0,1 Km/H • Speed Accuracy >2 Km/H: ± 5 % • Accuracy Inclination: ± 0,3 % • Should Have The Following Connectivity: • Lode 38K4 Interface Protocol, Lode Interface Protocol, Lode Wlp Interface Protocol, Hp Cosmos Interface Protocol, Woodway Interface Protocol, Trackmaster Interface Protocol, Ge Interface Protocol, Usb Connector, Analog Connector, Spo2 Connector, Rs232 In Connector, Rs232 Out Connector • It Should Have The Following Dimensions: • Walking Surface Length: 300 Cm • Walking Surface Width: 200 Cm • Step Up Height: 35 Cm • Product Length (Cm): 325 Cm • Product Width (Cm): 296 Cm • Product Height At No Elevation: 260 Cm • Product Height At Maximum Elevation: 290 Cm • Product Weight: 1000 Kg • It Should Have The Following Electrical Requirement: • Maximum Rated Power Input: 8000 Va • 3 X 400 V: • Maximum Motor Power: 8 Kw • It Should Have The Following Safety Compliances: • Iso 9001:2015 Compliant • Integrated Emergency Stop O Standard Emergency Lanyard , Wheelchair Ergometer- • It Should Have Realistic And Accurate Testing With Unique Wheelchair Propulsion Technique. • It Should Have Different Friction To Create Test And Training Protocols. • It Should Be Equipped With High Measurement Frequency To Detect Small Difference Between Left And Right Or Propulsion Technique. • The System Should Be Able To Measure Left/Right Independent Speed And Torque. • The System Should Be Equipped With A Force Measurement Module. • It Should Have Inertia Simulation And Positioning Aid • The System Should Be Equipped With Fixation With Bruns Protectors. • The System Should Have The Specific Features Available: ? Full Dynamic Inertia Simulation With Parameters User Weight, Wheelchair Weight And Surface Resistance. ? Full Dynamic Calibration Enables A Better Arrangement And Simulation. • Workload Specifications : ? Maximum Speed Of The Treadmill: 45 Km/H. ? Minimum Speed Of The Treadmill: 0.1 Km/H. ? Speed Adjustment Steps: 0.1Km/H. ? Maximum Reverse Speed: 45Km/H. ? Speed Readout Accuracy Of The Treadmill: 0.1 Km/H. ? Allowed User Weight Up To: 225Kg. • Safety Specifications: ? Fully Integrated Emergency Stop. The Device Should Have The Following Specifications: • Maximum Speed: 45 Km/H • Minimum Operational Speed: 0.1 Km/H • Speed Adjustment Steps: 0.1 Km/H • Maximum Reverse Speed: 45 Km/H • Rotation Direction Capabilities: Clockwise & Anti-Clockwise • Speed Readout Accuracy: 0.1 Km/H • Allowed User Weight: 225 Kg • The Device Should Have High Speed Data Input In Lem &Usb Connector The Device Dimensions Should Be: • Product Height (Mm): 220 Mm • Product Length (Mm): 3311 Mm • Product Width (Mm) : 1394 Mm • Product Weight: 200 Kg • The Device Should Have A Maximum Rated Power Input Of 1400 Va & 230 V Ac 50/60 Hz The Device Should Be Operate In The Following Environmental Conditions: • Minimum Operational Temperature: 14 °C • Maximum Operational Temperature: 35 °C • Minimum Operational Air Pressure: 80 Kpa • Maximum Operational Air Pressure: 106 Kpa • Minimum Operational Non-Condensing Humidity: 30 % • Maximum Operational Non-Condensing Humidity: 90 % • Minimum Storage & Transport Temperature: -20 °C • Maximum Storage & Transport Temperature: 60 °C • Minimum Air Pressure Storage & Transport: 50 Kpa • Maximum Storage & Transport Air Pressure: 106 Kpa • Min. Humidity Storage & Transport: 10 % • Max. Humidity Storage & Transport: 95 % , Para Performance Treadmill - ? It Should Be Xl Sports Treadmill With Unique Slat Technology. ? It Should Be Connected To External Ecg And Pulmonary Devices. ? It Should Be Xl Design Surface When Running At High Speeds. ? It Should Have Standard Max Speed Of 30 Km/H. ? It Should Be Shock Absorbing Design And Smooth Acceleration. ? The Device Should Have The Following Specification: ? Maximum Speed 30 Km/H ? Minimum Operational Speed 0.1 Km/H ? Speed Adjustment Steps 0.1 Km/H ? Positive Elevation 25 % ? Elevation Adjustment Steps 0.5 % ? Optional Negative Elevation -25 % ? Elevation Readout Accuracy 0.3 % ? Speed Readout Accuracy 0.5 Km/H ? Allowed User Weight 225 Kg ? The Device Should Have The Following Connectivity Protocols:Lode Erm Interface Protocol, Hp Cosmos Interface Protocol, Woodway Interface Protocol, Trackmaster Interface Protocol, Ge Interface Protocol, Usb Connector ? The Device Should Have The Following Dimensional Specifications ? Walking Surface Length: 220 Cm ? Walking Surface Width: 70 Cm ? Step Up Height: 29 Cm ? Product Length (Cm): 280 Cm ? Product Width (Cm): 106 Cm ? Product Height: 145 Cm ? Product Weight: 380 Kgthe Device Should Have The Following Electrical Specification: ? Maximum Rated Power Input: 5000 Va ? 3 X 400 V ? Maximum Motor Power: 3.1 Kw ? The Device Should Follow The Safety Compliance: ? Iec 60601-1:2005 ? Iso 13485:2016 Compliant ? Iso 9001:2015 Compliant ? Standard Emergency Lanyard • Step Up Plate Emergency Stop ? The Device Should Have The Following Certifications: ? Ce Class Im According To Mdd93/42/Eec ? Ce Class Of Product With Optional Spo2: Iia ? Ce Class Of Product With Optional Bpm: Iia ? Cb According To Iecee Cb ? The Device Should Have The Following Operational Conditions Of: ? Minimum Operational Temperature: 14 °C ? Maximum Operational Temperature: 35 °C ? Minimum Operational Air Pressure: 70 Kpa ? Maximum Operational Air Pressure: 106 Kpa ? Minimum Operational Non-Condensing Humidity: 30 % ? Maximum Operational Non-Condensing Humidity: 90 % ? Minimum Storage & Transport Temperature: -25 °C ? Maximum Storage & Transport Temperature: 70 °C ? Minimum Air Pressure Storage & Transport: 50 Kpa ? Maximum Storage & Transport Air Pressure: 10 Kpa ? Min. Humidity Storage & Transport: 10 % ? Max. Humidity Storage & Transport: 95 % , Arm Ergometer With Pedal Force Measurement- • It Should Be Modern And Reliable Arm Ergometer. • It Should Be Analysis Of Force Balance And Stroke Efficiency. • The System Should Be Equipped Measurements Of Force In Both Left And Right Crank. • The System Should Be Equippedwith Special Analysis And Polar Graphs • It Should Be Detect Workload With Real Diagnostic Tool. • The System Should Be Equipped With An Extreme Speed Up To 40 Km/H. • It Should Be Measure Pedal Force Every 2 Degrees During Each Revolution During The Exercise Test. • The System Should Be Used In Specific Features Available: ? Extreme Low Start-Up Load. ? Small Adjustment Steps. ? Designed To Be Sweat-Proof. ? Customer Specific Display Setting. ? Accurate Braking System Over A Long Period Of Time. ? Standard Safety Lanyard And Service Friendly Belt Treadmill. ? Available With Positive Elevation 15%. ? Closed Loop Motor Control. • Workload Specifications : ? Minimum Load: 7W ? Maximum Peak Load: 2500W ? Minimum Load Increments: 1W ? Maximum Continuous Load: 1500 W ? Maximum Rpm Independent Constant Load: 150 Rpm ? Minimum Rpm Independent Constant: 30 Rpm • The Device Should Have The Following Dimensional Requirement: • Product Length (Cm): 114 Cm • Product Width (Cm): 59 Cm • Product Height: 51 Cm • Product Weight: 65 Kg • The Device Should Have The Following Electrical Requirement: • 115 V Ac 50/60 Hz (130 Va) • 230 V Ac 50/60 Hz (130 Va) • The Device Should Following Standards And Safety: • Iec 60601-1:2005 • Iso 13485:2016 Compliant • Iso 9001:2015 Compliant • The Device Should Have The Following Certification: • Ce Class Im According To Mdd93/42/Eec: Yes • Cb According To Iecee Cb • The Device Should Be Operational In The Following Environmental Conditions: • Minimum Operational Temperature: 14 °C • Maximum Operational Temperature: 40 °C • Minimum Operational Air Pressure: 70 Kpa • Maximum Operational Air Pressure: 40 Kpa • Minimum Operational Non-Condensing Humidity: 30 % • Maximum Operational Non-Condensing Humidity: 90 % • Maximum Storage & Transport Temperature: 70 °C • Minimum Air Pressure Storage & Transport: 50 Kpa • Maximum Storage & Transport Air Pressure: 106 Kpa • Min. Humidity Storage & Transport: 10 % • Max. Humidity Storage & Transport: 95 % • Pedal Force Measurement Should Have: • Rotational Measurement Resolution: 2 ° • Pedal Force Accuracy Below 100W: 0.5 N , Multi-Station Isokinetic System- • It Should Have The Following Technical Specifications: ? Maximum Cable Extraction: 4 M (Up To 5 M With Dedicated Accessory) ? Min/Max Leg Extension Load: 10-630 N/M ? Min/Max Pulley Load: 1-110 Kg ? Min/Max Squat Load: 1-220 Kg (Up To 440 Kg With Dedicated Accessory) ? Min/Max Isokinetic Speeds: 0.1-5 M/S ? Min/Max Leg Extension Isokinetic Speeds: 12-778 º/S • The System Should Have: • Wi-Fi Connection And Remote Control • 2 15.6” Touch-Screen Displays • 2 Usb Ports • Integrated Memory And Automatic Archive System • Medical Certificate Ce 0476 • Electric Motor That Produces Variable And Controlled Torque • Pulley Workstation • Leg Extension Workstation • Squat Workstation • Software Specifications : ? Training Methods With Version 7.0 ? Isotonic Nit (No Inertia) ? Isotonic Wit (With Inertia) ? Elastic ? Smart Viscous ? Variable Load ? Isometric ? Isokinetic ? Tests Methods With Version 7.0 ? Concentric Max Strength Test ? Concentric Balance Strength Test ? Power Test ? Eccentric Max Strength Test ? Eccentric Balance Strength Test ? Jump Power Test ? Isometric Max Strength Test ? Isometric Balance Strength Test ? Isokinetic Max Strength Test ? Isokinetic Balance Strength Test ? Isokinetic Concentric/Eccentric ? Dimensions (Lxdxh): 260X90x185 Cm ? Footprint Area (Lxdxh): 305X90x185 Cm ? Weight: 342 Kg ? Electric Motor: Nominal Power 1.6 Kw • Power Supply: Tension: 230 V - Frequency: 50/60 Hz Maximal Current: 8 A , Wall-Mounted Training System- • It Should Have A Guide For Training Or Rehabilitation And Offers Multiple Exercises • It Should Havemore Than 200 Exercises Specially Developed In Association With The Various Accessories. • It Shouldalso Measures Your Performance And Controls Your Training.. • It Should Track In Real Time The Force, Position, Speed And Power Of The Movements Performed. • It Should Haveconnectivity Via The Tablet Allows You To Configure Your Exercises . •It Should View Data In Real Time And Apply A Higher Level To Your Workouts. • The System With Specific Features & Programs Available : ? It Should Havedynamic Vectoring Technology. ? It Should Have Constant Resistance With A Stable Force Throughout The Movement Without Dead Spots Or Dangerous Overloads ? It Should Have Eccentric With A Load That Increases In The Eccentric Phase For Greater Stress. ? It Should Have Choice Of Elastic Stiffness Possible. ? It Should Have Isometric Mode For Muscle Contraction Without Shortening And Displacement. ? It Should Have Possible Configurations In Vertical Or Horizontal. ? It Should Have Fixed Point Or Eastern Gravity Configurations. Fields Of Application: - Toning: Tone Your Muscles For A Healthier Physique - Hypertrophy: Increase Muscle Mass - Performance: Increase Your Performance Through High Intensity Training - Prevention: Improve Your Quality Of Life With Programs To Maintain Joint Strength And An Active Metabolism ? Rehabilitation: Offer Progressive, Fun And Innovative Work In The Rehabilitation Phases. , 3D Motion Capture & Biomechanical Analysis System- The System Should Be Capable Of Assessing Movement Quality, Range Of Motion & Stability In The Following Tests & Exercises: • Lower-Body Dynamic • Single Leg Squat • Squat • Drop Jump • Lunge • Overhead Squat • Countermovement Jump • Cervical Spine • Lateral Flexion Rom • Flexion/Extension Rom • Shoulder • Abduction/Adduction Rom • Flexion/Extension Rom • Internal/External Rotation Rom • Stability • Single Leg Posture • Tandem Stand • Single Leg Stand • Standing Posture • Semi-Tandem Stand 30-Second Sit-To-Stand • Auto-Trainer • Build & Run Interactive Training Programs The System Should Have The Following Hardware: • 3D Infrared Camera With 100Hz Sampling Rate • Camera Tripod • Custom Laptop • Wireless Keyboard The System’S Software Must Have: • The Capability Of Building Tailored Training Programs Complete With Reps, Sets And Rest. The Software Should Be Capable Of Guiding Athletes Through Each Exercise In The Program, Without The Intervention Of Coaches. • The Software Should Be Capable Of Reporting The Centre Of Mass Movement In The Anteroposterior And Mediolateral Directions During Balance Assessments. The Software Should Be Capable Of Quantifying The Overall Sway With A Balance Algorithm, Which Can Be Used For Baseline Testing And Tracking Changes Over Time. • The Software Should Be Capable Of Displaying The Joint Range Of Motion Metrics Overlaid On The Video In Real-Time • The System Should Be Capable Of Automatically Generating A Comprehensive Report Automatically With Photo Snapshots Of Key Points And Test Results. , Strength Testing System - The System Should Be A Portable Combination Of Hardware And Software Capable Of Using Sensors With Algorithms Capable Of Analysing Strength In Real-Time. The Device Should Be Capable Of Performing Testing Isometric Strength In 35+ Positions And Train In 130+ Exercises Including But Not Limited To: • Hip: Adduction, Abduction, Flexion, Extension, Internal Rotation, External Rotation • Neck:Lateral Flexion, Flexion, Extension • Ankle:Inversion And Eversion • Knee:Flexion, Extension • Shoulder:Adduction, Abduction, Flexion, Extension, Internal Rotation, External Rotation, Etc The Device Should Have: • Adjustable Outer Sensors To Allow Lateral Adjustment To A Variety Of Widths And Rotation Of Up To 90 Degrees • The Device Should Have A Detachable Head Unit To Ensure Portability And Allow Comparable Testing. • Adjustable Crossbar Height To Accommodate Various Tests Or Exercises • Adjustable Cross Bar Rotation With Rotation Lockable In 15 Degree Increments For Quick, Accurate Transitions Between Protocols The System Software Should Be Capable Of: • Providing Real-Time Biofeedback Through A Mobile App For Ios Devices Or Through A Pc Software. • Connecting With Pc Via Usb And Ios Devices Via Bluetooth. • Provide An Overview Of Max And Average Strength And Comparison Of Strength Ratios And Imbalances. • Monitoring Athlete Performance And Health With Longitudinal Reporting. The Software Should Be Capable Of Visualizing Multiple Tests For Individual Athletes Or The Whole Team To Leverage Insights From The Historical Data To Make More Informed Decisions For The Future. • Prescribing Isometric Training Programs Using A Library Of Pre-Determined Exercises That Can Be Used By Athlete Sin A Self-Guided Training Format. , Handheld Strength & Rom Testing System - The Device Should Be Bye Capable Of Performing 200+ Strength And Range Of Motion Tests In A Hand-Held Form Factor. The Device Should Be A Dynamometer And An Inclinometer. The Device Should Have Various Smart Attachments That Enable Hundreds Of Strength & Movement Assessments. The Device Should Have A 10 Hour Battery Life With 200Kg (Tension)/100Kg (Compression) Load Cell Along With A 9-Axis Imu (Accelerometer, Gyroscope And Magnetometer) • The Device Should Be Capable Of Assessing Strength & Rom For: • Upper Body: Neck, Shoulder, Scapula, Elbow, Wrist • Lowerbody: Hip, Knee, Ankle & Foot • Trunk: Thoracic • The Device Should Be Capable Of Performing The Following Tests With Attachments: • Push Tests, Pull Tests, Fixed Point Tests, Lower Limb/Upper Limb Attachment, Grip Strength The Device Should Have A Connected Mobile App For Ios & Android Devices Capable Of: • Selecting Test Types, View Information On Best-Practice Protocols And Seamlessly Record Data Against An Athelte’S Profile. • Showing Range Of Motiondata In Real-Time With Instant Feedback • Track Athlete Progress Over Time. • Auto-Detect Attachments Using Nfc Technology. , Optical Motor Movement Analysis System - The System Should Be Capable Of Analysing And Optimising Parameters Of Movements Such As Force, Reactivity, Motion Control, Etc. The System Should Have Optical Sensors Capable Of Working At A Frequency Of 1000Hz With An Accuracy Of 1Cm. The System Should Be Capable Of Being Used For Various Activities Such As Jumping, Tapping Or Even Running On A Treadmill. The Device Should Be Able To: • Assess General Physical Conditions • Identify Deficiencies In Strength, Explosiveness, Postural Problems And Asymmetries Based On Data And Videos Generated From The System • Empower The Development And Application Of Retraining Programmes, Correction And Optimization Of The Athlete’S Movements Based On Numeric Data. • Aid In Prevention Of Recurrences, Complications And Setbacks In Pathological Or Post-Injury Phase Using The Data Generated. • Support An Athlete In Return To Play. • Compare Post And Pre-Training Values The Device Should Be Modular And Capable Of The Following Tests: • Run & Walk Analysis • Neuromuscular Work Using Biofeedback • Jump Tests, Strength Measuring, Explosiveness, Plyometric Capacity, Stabilisation Ability, Reactivity And Resistance. • Tapping/Frequency Test • Reaction Test The System Should Have Device Which Is Capable Of Obtaining Kinematics Of Anybody Segment During A Physical Movement. The Device Should Have A Vest, Belts Of Various Sizes And Magnetic Support). The Device Should Be Able To Generate Data On The Following Parameters: • Antero-Posterior And Medio-Lateral Imbalance. • Main Directions And Breadth Of The Movement Of The Trunk. • Upper Phase Coordination Index (Upci) That Describes Coordination In The Rotation Of The Trunk • Phase Difference Between The Lower Body And The Upper Body. • Rms, Harmonic Ratio And Harmonicity Index Describing Gait Stability. • Eccentric And Concentric Work And Duration • Force, Veloctiy And Max Power. • Rate Of Force Development And Landing Rate. • Swat Length & Area • Sway Travel Speed • Sway Frequency , Wireless Training Timer System- The Device Should Be Capable Of Fulfilling Timing Requirements For Athlete Training • The System Should Have A Set Of 8 Integrated Training Timers • The Device Should Have An Intuitive Graphical Interface • The Device Should Be Able To Perform Tests For Training Including Customisable Tests. • The Device Should Be Capable Of Integrating With Multiple Photocell For Unlimited Intermediate Times • The Device Should Have A Battery Backup Of 10Hours. • The Device Should Be Capable Of Transferring Data To A Pc Using Usb Interface. • The Device Should Have Self-Configuring Photocells • The Device Should Be Water Resistant • The Device Should Be Compatible With The Optical Motor Movement Analysis System , Thermography Robot - The Device Should Use Contactless Pressure And Massage Sweeps Using Thermography For Rehabilitation. The Device Should Be A Robotic Equipment Capable Of Automating Movements And Protocols With Minimum Human Intervention. The Device Should Be Equipped With A Thermography Camera Able To Map The Heat Signature Of The Athlete’S Body And Deliver Therapy Accordingly. The Device Should Be Capable Of Treating Musculoskeletal Injuries By Applying A Jet Of Pressurized Air With A Correct Temperature And Without The Need For Direct Contact With The Body. , Hyperbaric Oxygen Chamber Multi - The Device Should Be Capable Of Delivering Oxygen Rich Therapy For Enhanced Performance And Recovery The Device Should Have A Touch Screen Control Unit Both Inside And Outside The Chamber The Device Should Have A Digital Pressure Meter The Device Should Have5-100 Kpa Pressure, Limited To 50 Kpa (Tested Up To 150 Kpa) The Device Should Be Capable Of Accommodating Multiple Athletes Simultaneously. The Device Should Be Able To Operate For30 - 600 Minutes In A Single Session Without Interruption , Sport Vaccum Therapy - The Device Should Be Capable Of Providing Rhythmic Negative Pressure On The Lower Body To: • Trigger Cardiovascular Stimulation • Improve Blood Circulation • Improve The Venous-Lymphatic Reflux • Reduce The Breaks Due To Fatigue In Athletes By Enabling Faster Recovery • Enable Capillary Dilatation And Prevent Orthostatic Complications. The Device Should Be Capable Of Managing Negative Pressure Which Should Be Manually Adjustable From -20 To -70 Mmhg The Intervals Of The Negative Pressure And Pause Phases Should Be Adjustable From 2 To 30 Seconds. Treatment Duration Should Be Manually Adjustable From 2 To 60 Min. The Device Should Have A Backrest Cushion That Can Be Smoothly Adjusted Electrically Using The Patient Remote Control. The Device Should Have An Emergency Switch For Patients. , Tecar Therapy - It Should Be Of Technical Specifications As Follow . • Emission Frequency: 400Khz, 470Khz, 700Khz, 1000Khz, 1200Khz,10% • Treatment Modality: Capacitive And Resistive • The System Should Be Capable Of Treating : ? Bone And Articular Pathologies ? Pathologies Of Tendons And Ligaments ? Muscular And Soft Tissue Pathologies ? Vascular And Lymphatic Pathologies ? Pathologies Of The Nervous System , Compression Therapy - It Should Have The Following Technical Specifications. • 3 Programs • Pressure: 0~180Mmhg±10% • Timer Up To 99 Minutes It Should Be Capable Of Treating Lymphedema, Vascularization, Heavy Limbs, Drainage , Swollen Legs And Arms, Water Retention, Edema From Immobility, Cellulite, • Massages, Lymphatic Drainage, Hematomas, Etc. • Standard And Safety Specifications: • Compliance With The Directives On Medical Devices (93/42/Eec47/2007/Eec). , Electro-Stimulator - It Should Have Technical Specifications As Follow . • Channels - 4 Independent (8 Electrodes) • Frequency- 0,3-150Hz • Pulse Amplitude- 40-450?S • Weight- 454 Gram It Should Be 4 Channel Electro-Stimulation With 441 Programs.

INR 10000 /-

INR 4200000.0 /-

INR 21 Crore /-

Name of Work: FOR SELECTION OF BIDDER FOR SUPPLY & INSTALLATION OF EQUIPMENT FOR PARA-ATHLETES PERFORMANCE CENTRE AT SMS STADIUM, JAIPUR AND JODHPUR

Sl. No.	Item Description
1	Supply installation&commissioningofEquipmentforthePerformance Training & Analysis Centre for Para-Athletes, Jaipur & Jodhpur
2	Ultra Para-Performance Treadmill for Wheelchair athletes- • It should be Multifunctional robust and reliable treadmill. • It should be Compatible with ECG and pulmonary devices. • The system should be equipped with various handrails and suitable for your specific stress test setting. • The system should be used in Extreme performance option available: ? High Speeds ? Negative Elevation ? Fall stop • The system should be equipped with an Extreme speed up to 40 km/h. • It should be unique ultra large dimension. • The system should be used in specific features available: ? Versatile Interfacing with perfect communication. ? Robust design to withstand continuous heavy use up to 225 kg. ? Smallest adjustment steps of 0.1 km/h. ? Optional Integrated BPM and SpO2 measurement. ? Standard Safety Lanyard and service friendly belt treadmill. ? Available with positive elevation 15%. ? Closed loop motor control. • It should have the following specification: o Maximum speed: 40 km/h o Minimum operational speed: 01 km/h o Speed adjustment steps: 0 km/h o Positive elevation: 25 % o Elevation adjustment steps: 0.5 % o Negative elevation: -25 % • The accuracy should be: • Speed accuracy <2 km/h: ± 0,1 km/h • Speed accuracy >2 km/h: ± 5 % • Accuracy inclination: ± 0,3 % • Should have the following connectivity: • Lode 38K4 interface protocol, Lode interface protocol, Lode WLP interface protocol, "HP Cosmos" interface protocol, "Woodway" interface protocol, "Trackmaster" interface protocol, "GE" interface protocol, USB connector, Analog connector, SpO2 connector, RS232 in connector, RS232 out connector • It should have the following dimensions: • Walking surface length: 300 cm • Walking surface width: 200 cm • Step up height: 35 cm • Product length (cm): 325 cm • Product width (cm): 296 cm • Product height at no elevation: 260 cm • Product height at maximum elevation: 290 cm • Product weight: 1000 kg • It should have the following electrical requirement: • Maximum rated power input: 8000 VA • 3 x 400 V: • Maximum motor power: 8 kW • It should have the following safety compliances: • ISO 9001:2015 compliant • Integrated emergency stop o Standard emergency lanyard
3	Wheelchair Ergometer- • It should have Realistic and accurate testing with unique wheelchair propulsion technique. • It should have different friction to create test and training protocols. • It should be equipped with high measurement frequency to detect small difference between left and right or propulsion technique. • The system should be able to measure Left/Right independent speed and torque. • The system should be equipped with a Force measurement module. • It should have Inertia simulation and Positioning aid • The system should be equipped with fixation with Bruns protectors. • The system should have the specific features available: ? Full dynamic Inertia simulation with parameters user weight, wheelchair weight and surface resistance. ? Full dynamic calibration enables a better arrangement and simulation. • Workload specifications : ? Maximum speed of the treadmill: 45 km/h. ? Minimum speed of the treadmill: 0.1 km/h. ? Speed adjustment steps: 0.1km/h. ? Maximum reverse speed: 45km/h. ? Speed readout accuracy of the treadmill: 0.1 km/h. ? Allowed user weight up to: 225kg. • Safety specifications: ? Fully integrated emergency stop. The device should have the following specifications: • Maximum speed: 45 km/h • Minimum operational speed: 0.1 km/h • Speed adjustment steps: 0.1 km/h • Maximum reverse speed: 45 km/h • Rotation direction capabilities: clockwise & anti-clockwise • Speed readout accuracy: 0.1 km/h • Allowed user weight: 225 kg • The device should have High Speed data input in LEM &USB connector The device dimensions should be: • Product height (mm): 220 mm • Product length (mm): 3311 mm • Product width (mm) : 1394 mm • Product weight: 200 kg • The device should have a Maximum rated power input of 1400 VA & 230 V AC 50/60 Hz The device should be operate in the following environmental conditions: • Minimum operational temperature: 14 °C • Maximum operational temperature: 35 °C • Minimum operational air pressure: 80 kPa • Maximum operational air pressure: 106 kPa • Minimum operational non-condensing humidity: 30 % • Maximum operational non-condensing humidity: 90 % • Minimum storage & transport temperature: -20 °C • Maximum storage & transport temperature: 60 °C • Minimum air pressure storage & transport: 50 kPa • Maximum storage & transport air pressure: 106 kPa • Min. humidity storage & transport: 10 % • Max. humidity storage & transport: 95 %
4	Para Performance Treadmill - ? It should be XL sports treadmill with unique Slat Technology. ? It should be connected to external ECG and pulmonary devices. ? It should be XL design surface when running at high speeds. ? It should have standard max speed of 30 km/h. ? It should be Shock absorbing design and smooth acceleration. ? The device should have the following specification: ? Maximum speed 30 km/h ? Minimum operational speed 0.1 km/h ? Speed adjustment steps 0.1 km/h ? Positive elevation 25 % ? Elevation adjustment steps 0.5 % ? Optional negative elevation -25 % ? Elevation readout accuracy 0.3 % ? Speed readout accuracy 0.5 km/h ? Allowed user weight 225 kg ? The device should have the following connectivity protocols:Lode ERM interface protocol, "HP Cosmos" interface protocol, "Woodway" interface protocol, "Trackmaster" interface protocol, "GE" interface protocol, USB connector ? The device should have the following dimensional specifications ? Walking surface length: 220 cm ? Walking surface width: 70 cm ? Step up height: 29 cm ? Product length (cm): 280 cm ? Product width (cm): 106 cm ? Product height: 145 cm ? Product weight: 380 kgThe device should have the following electrical specification: ? Maximum rated power input: 5000 VA ? 3 x 400 V ? Maximum motor power: 3.1 kW ? The device should follow the safety compliance: ? IEC 60601-1:2005 ? ISO 13485:2016 compliant ? ISO 9001:2015 compliant ? Standard emergency lanyard • Step up plate emergency stop ? The device should have the following certifications: ? CE class Im according to MDD93/42/EEC ? CE class of product with optional SpO2: IIa ? CE class of product with optional BPM: IIa ? CB according to IECEE CB ? The device should have the following operational conditions of: ? Minimum operational temperature: 14 °C ? Maximum operational temperature: 35 °C ? Minimum operational air pressure: 70 kPa ? Maximum operational air pressure: 106 kPa ? Minimum operational non-condensing humidity: 30 % ? Maximum operational non-condensing humidity: 90 % ? Minimum storage & transport temperature: -25 °C ? Maximum storage & transport temperature: 70 °C ? Minimum air pressure storage & transport: 50 kPa ? Maximum storage & transport air pressure: 10 kPa ? Min. humidity storage & transport: 10 % ? Max. humidity storage & transport: 95 %
5	Arm Ergometer with Pedal Force Measurement- • It should be modern and reliable arm ergometer. • It should be analysis of force balance and stroke efficiency. • The system should be equipped measurements of force in both left and right crank. • The system should be equippedwith special analysis and polar graphs • It should be detect workload with real diagnostic tool. • The system should be equipped with an Extreme speed up to 40 km/h. • It should be measure pedal force every 2 degrees during each revolution during the exercise test. • The system should be used in specific features available: ? Extreme low start-up load. ? Small adjustment steps. ? Designed to be sweat-proof. ? Customer specific display setting. ? Accurate braking system over a long period of time. ? Standard Safety Lanyard and service friendly belt treadmill. ? Available with positive elevation 15%. ? Closed loop motor control. • Workload specifications : ? Minimum load: 7W ? Maximum peak load: 2500W ? Minimum load increments: 1W ? Maximum continuous load: 1500 W ? Maximum rpm independent constant load: 150 rpm ? Minimum rpm independent constant: 30 rpm • The device should have the following dimensional requirement: • Product length (cm): 114 cm • Product width (cm): 59 cm • Product height: 51 cm • Product weight: 65 kg • The device should have the following electrical requirement: • 115 V AC 50/60 Hz (130 VA) • 230 V AC 50/60 Hz (130 VA) • The device should following standards and safety: • IEC 60601-1:2005 • ISO 13485:2016 compliant • ISO 9001:2015 compliant • The device should have the following certification: • CE class Im according to MDD93/42/EEC: yes • CB according to IECEE CB • The device should be operational in the following environmental conditions: • Minimum operational temperature: 14 °C • Maximum operational temperature: 40 °C • Minimum operational air pressure: 70 kPa • Maximum operational air pressure: 40 kPa • Minimum operational non-condensing humidity: 30 % • Maximum operational non-condensing humidity: 90 % • Maximum storage & transport temperature: 70 °C • Minimum air pressure storage & transport: 50 kPa • Maximum storage & transport air pressure: 106 kPa • Min. humidity storage & transport: 10 % • Max. humidity storage & transport: 95 % • Pedal force measurement should have: • Rotational measurement resolution: 2 ° • Pedal Force accuracy below 100W: 0.5 N
6	Multi-station Isokinetic System- • It should have the following Technical specifications: ? Maximum cable extraction: 4 m (up to 5 m with dedicated accessory) ? Min/Max Leg Extension load: 10-630 N/m ? Min/Max Pulley load: 1-110 Kg ? Min/Max Squat load: 1-220 Kg (up to 440 Kg with dedicated accessory) ? Min/Max Isokinetic Speeds: 0.1-5 m/s ? Min/Max Leg Extension Isokinetic Speeds: 12-778 º/s • The system should have: • Wi-Fi connection and remote control • 2 15.6” touch-screen displays • 2 USB ports • Integrated memory and automatic archive system • Medical Certificate CE 0476 • Electric motor that produces variable and controlled torque • Pulley workstation • Leg Extension workstation • Squat workstation • Software specifications : ? Training methods with version 7.0 ? ISOTONIC NIT (NO INERTIA) ? ISOTONIC WIT (WITH INERTIA) ? ELASTIC ? SMART VISCOUS ? VARIABLE LOAD ? ISOMETRIC ? ISOKINETIC ? Tests methods with version 7.0 ? Concentric max strength test ? Concentric balance strength test ? Power test ? Eccentric max strength test ? Eccentric balance strength test ? Jump power test ? Isometric max strength test ? Isometric balance strength test ? Isokinetic max strength test ? Isokinetic balance strength test ? Isokinetic concentric/eccentric ? Dimensions (LxDxH): 260x90x185 cm ? Footprint Area (LxDxH): 305x90x185 cm ? Weight: 342 Kg ? Electric motor: Nominal power 1.6 kW • Power supply: Tension: 230 V - Frequency: 50/60 Hz Maximal current: 8 A
7	Wall-mounted training system- • It should have a guide for training or rehabilitation and offers multiple exercises • It should havemore than 200 exercises specially developed in association with the various accessories. • It shouldalso measures your performance and controls your training.. • It should track in real time the force, position, speed and power of the movements performed. • It should haveconnectivity via the tablet allows you to configure your exercises . •It should view data in real time and apply a higher level to your workouts. • The system with specific features & programs available : ? It should haveDynamic Vectoring technology. ? It should have Constant resistance with a stable force throughout the movement without dead spots or dangerous overloads ? It should have Eccentric with a load that increases in the eccentric phase for greater stress. ? It should have Choice of elastic stiffness possible. ? It should have isometric mode for muscle contraction without shortening and displacement. ? It should have possible configurations in vertical or horizontal. ? It should have fixed point or eastern gravity configurations. Fields of Application: - Toning: tone your muscles for a healthier physique - Hypertrophy: increase muscle mass - Performance: increase your performance through high intensity training - Prevention: improve your quality of life with programs to maintain joint strength and an active metabolism ? Rehabilitation: offer progressive, fun and innovative work in the rehabilitation phases.
8	3D Motion Capture & Biomechanical Analysis System- The system should be capable of assessing movement quality, range of motion & stability in the following tests & exercises: • Lower-body dynamic • Single Leg Squat • Squat • Drop Jump • Lunge • Overhead Squat • Countermovement Jump • Cervical Spine • Lateral Flexion ROM • Flexion/Extension ROM • Shoulder • Abduction/Adduction ROM • Flexion/Extension ROM • Internal/External Rotation ROM • Stability • Single Leg Posture • Tandem Stand • Single Leg Stand • Standing Posture • Semi-tandem Stand 30-Second Sit-To-Stand • Auto-Trainer • Build & run interactive training Programs The System should have the following hardware: • 3D Infrared Camera with 100Hz Sampling rate • Camera tripod • Custom laptop • Wireless keyboard The system’s software must have: • The capability of building tailored training programs complete with reps, sets and rest. The software should be capable of guiding athletes through each exercise in the program, without the intervention of coaches. • The software should be capable of reporting the centre of mass movement in the anteroposterior and mediolateral directions during balance assessments. The software should be capable of quantifying the overall sway with a balance algorithm, which can be used for baseline testing and tracking changes over time. • The software should be capable of displaying the joint range of motion metrics overlaid on the video in real-time • The system should be capable of automatically generating a comprehensive report automatically with photo snapshots of key points and test results.
9	Strength Testing System - The system should be a portable combination of hardware and software capable of using sensors with algorithms capable of analysing strength in real-time. The device should be capable of performing testing isometric strength in 35+ positions and train in 130+ exercises including but not limited to: • Hip: Adduction, abduction, Flexion, extension, internal rotation, external rotation • Neck:Lateral flexion, flexion, extension • Ankle:Inversion and eversion • Knee:Flexion, extension • Shoulder:Adduction, Abduction, flexion, extension, internal rotation, external rotation, etc The device should have: • Adjustable outer sensors to allow lateral adjustment to a variety of widths and rotation of up to 90 degrees • The device should have a detachable head unit to ensure portability and allow comparable testing. • Adjustable crossbar height to accommodate various tests or exercises • Adjustable cross bar rotation with rotation lockable in 15 degree increments for quick, accurate transitions between protocols The system software should be capable of: • Providing real-time biofeedback through a mobile app for iOS devices or through a PC software. • Connecting with PC via USB and iOS devices via Bluetooth. • Provide an overview of max and average strength and comparison of strength ratios and imbalances. • Monitoring athlete performance and health with longitudinal reporting. The software should be capable of visualizing multiple tests for individual athletes or the whole team to leverage insights from the historical data to make more informed decisions for the future. • Prescribing isometric training programs using a library of pre-determined exercises that can be used by athlete sin a self-guided training format.
10	Handheld Strength & ROM testing System - The device should be bye capable of performing 200+ strength and range of motion tests in a hand-held form factor. The device should be a dynamometer and an inclinometer. The device should have various smart attachments that enable hundreds of strength & movement assessments. The device should have a 10 hour battery life with 200kg (tension)/100kg (compression) load cell along with a 9-axis IMU (Accelerometer, gyroscope and magnetometer) • The device should be capable of assessing strength & ROM for: • Upper body: Neck, Shoulder, Scapula, Elbow, Wrist • Lowerbody: Hip, Knee, Ankle & foot • Trunk: Thoracic • The device should be capable of performing the following tests with attachments: • Push tests, Pull tests, Fixed point tests, Lower limb/Upper limb attachment, Grip strength The device should have a connected mobile app for iOS & Android devices capable of: • Selecting test types, view information on best-practice protocols and seamlessly record data against an athelte’s profile. • showing Range of motiondata in real-time with instant feedback • Track athlete progress over time. • Auto-detect attachments using NFC technology.
11	Optical Motor movement Analysis system - The system should be capable of analysing and optimising parameters of movements such as force, reactivity, motion control, etc. The system should have optical sensors capable of working at a frequency of 1000Hz with an accuracy of 1cm. The system should be capable of being used for various activities such as jumping, tapping or even running on a treadmill. The device should be able to: • Assess general physical conditions • Identify deficiencies in strength, explosiveness, postural problems and asymmetries based on data and videos generated from the system • Empower the development and application of retraining programmes, correction and optimization of the athlete’s movements based on numeric data. • Aid in prevention of recurrences, complications and setbacks in pathological or post-injury phase using the data generated. • Support an athlete in return to play. • Compare post and pre-training values The device should be modular and capable of the following tests: • Run & Walk analysis • Neuromuscular work using biofeedback • Jump tests, strength measuring, explosiveness, plyometric capacity, stabilisation ability, reactivity and resistance. • Tapping/frequency test • Reaction test The system should have device which is capable of obtaining kinematics of anybody segment during a physical movement. The device should have a vest, belts of various sizes and magnetic support). The device should be able to generate data on the following parameters: • Antero-posterior and medio-lateral imbalance. • Main directions and breadth of the movement of the trunk. • Upper phase coordination Index (UPCI) that describes coordination in the rotation of the trunk • Phase difference between the lower body and the upper body. • RMS, Harmonic Ratio and Harmonicity index describing gait stability. • Eccentric and concentric work and duration • Force, Veloctiy and Max Power. • Rate of force development and landing rate. • Swat length & area • Sway travel speed • Sway frequency
12	Wireless Training Timer System- The device should be capable of fulfilling timing requirements for athlete training • The system should have a set of 8 integrated training timers • The device should have an intuitive graphical interface • The device should be able to perform tests for training including customisable tests. • The device should be capable of integrating with multiple photocell for unlimited intermediate times • The device should have a battery backup of 10hours. • The device should be capable of transferring data to a PC using USB interface. • The device should have self-configuring photocells • The device should be water resistant • The device should be compatible with the optical motor movement analysis system
13	Thermography Robot - The device should use contactless pressure and massage sweeps using thermography for rehabilitation. The device should be a robotic equipment capable of automating movements and protocols with minimum human intervention. The device should be equipped with a thermography camera able to map the heat signature of the athlete’s body and deliver therapy accordingly. The device should be capable of treating musculoskeletal injuries by applying a jet of pressurized air with a correct temperature and without the need for direct contact with the body.
14	Hyperbaric Oxygen Chamber Multi - The device should be capable of delivering oxygen rich therapy for enhanced performance and recovery The device should have a touch screen control unit both inside and outside the chamber The device should have a digital pressure meter The device should have5-100 kPa pressure, limited to 50 kPa (tested up to 150 kPa) The device should be capable of accommodating multiple athletes simultaneously. The device should be able to operate for30 - 600 minutes in a single session without interruption
15	Sport Vaccum Therapy - The device should be capable of providing rhythmic negative pressure on the lower body to: • Trigger Cardiovascular stimulation • Improve blood circulation • Improve the venous-lymphatic reflux • Reduce the breaks due to fatigue in athletes by enabling faster recovery • Enable capillary dilatation and prevent orthostatic complications. The device should be capable of managing Negative pressure which should be manually adjustable from -20 to -70 mmHg The intervals of the negative pressure and pause phases should be adjustable from 2 to 30 seconds. Treatment duration should be manually adjustable from 2 to 60 min. The device should have a Backrest cushion that can be smoothly adjusted electrically using the patient remote control. The device should have an Emergency switch for patients.
16	Tecar Therapy - It should be of Technical specifications as follow . • Emission frequency: 400kHz, 470kHz, 700kHz, 1000kHz, 1200kHz,10% • Treatment modality: Capacitive and resistive • The system should be capable of treating : ? Bone and articular pathologies ? Pathologies of tendons and ligaments ? Muscular and soft tissue pathologies ? Vascular and lymphatic pathologies ? Pathologies of the nervous system
17	Compression Therapy - It should have the following Technical specifications. • 3 programs • Pressure: 0~180mmHg±10% • Timer up to 99 minutes It should be capable of treating lymphedema, vascularization, heavy limbs, drainage , swollen legs and arms, water retention, edema from immobility, cellulite, • massages, lymphatic drainage, hematomas, etc. • Standard and safety specifications: • compliance with the directives on medical devices (93/42/EEC47/2007/EEC).
18	Electro-stimulator - It should have Technical specifications as follow . • Channels - 4 independent (8 electrodes) • Frequency- 0,3-150Hz • Pulse amplitude- 40-450µs • Weight- 454 gram It should be 4 channel electro-stimulation with 441 programs.