Microsoft word - t80 spec 4-9-12.doc

80 AMP MPPT BATTERY CHARGE
MANAGEMENT SYSTEM
T80 TurboCharger
Power and Control in a Single Device
The T80 TurboCharger™ integrates Maximum Power Point Tracking, battery charge management, state of charge information and communications into a single device. With 80 Amps continuous output, the T80 can handle 5120 watts of PV on 48 volt battery systems. Continuous Power Rating Up to 45oC/113˚F Ambient
The T80 TurboCharger™ produces full-rated power without de-rating at up to 45oC ambient temperature. Above that, the output current is reduced gradually to protect the life of the T80 and then automatically ramped up as the temperature decreases. High efficiency power circuits and robust thermal design minimize heat generation. The internal temperature-controlled variable speed fan runs just fast enough to maintain constant temperature for optimum reliability. Energy Monitor Built In
The T80 includes a built-in Energy Monitor using TriMetric™ Technology from Bogart Engineering. The monitor tracks power production and consumption to calculate the energy remaining in the battery. State of Charge (SOC) is displayed in Percent Full, Amp-hours, Watt-Hours, and Bar-Graph format. In addition, 90 days of energy-harvest history is stored in the T80. Enhanced Battery Performance and Life
The T80 supports Flooded Lead Acid (FLA), GEL and Absorbed Glass Mat (AGM) lead-acid batteries as well as Lithium-Ion, Nickel-Cadmium and Nickel-Iron. Four- stage charging with adjustable set points for all parameters. Manual and automatic equalization. Optimum MPPT/Charging Efficiency Cuts Costs
The T80 captures up to 35% more power from the photovoltaic (PV) array with patent-pending MPPT technology. The Apollo MPPT algorithm starts early and locks onto the peak power during rapidly changing insolation and temperature. The T80 dramatically cuts the cost of a PV system by reducing the number of PV Parallel T80’s for more charge current: panels required, eliminating the need for heavy gauge wiring, and increasing the life of the storage batteries. Integral System Monitoring Communications
The slot for optional add-in cards provides data communication to Remote Displays, PCs and the Internet. System performance can be monitored remotely and the T80 accepts software upgrades using Remote Display & Internet Monitoring a PC and the Remote Display’s SD Memory Card.
T80 TurboChargerTM
SPECIFICATIONS
80 Amps continuous at up to 45oC/113oF ambient temperature 140VDC Maximum Open Circuit Voltage (Voc), 112VDC Max Operating (Vmp) PV Vmp must be at least 16% greater than the highest battery charge voltage set point. For 12 volt batteries this is typically 18.56VDC, for 24v batteries typically 37.12VDC, and for 48v batteries it is typically 74.24VDC. The input voltage is measured at the input of the T80 after the wiring and the PV array temperature must be considered with Vmp. 5120 Watts (maximum when equalizing a 48v battery to 64v at 80 Amps) 2560 Watts for equalizing a 24 volt battery and 1280 watts for eq a 12 volt battery Bulk, Absorption, Float, Standby, Auto Equalization, and Manual Equalization Apollo Solar patent-pending MPPT algorithm harvests the optimum power under all conditions of clouds or temperature. Display ………………………….… Built-in 4-line 20-character LCD with back light LCD status screen displays Input voltage and current, Output voltage and current, Charge-mode, and Battery State-Of-Charge (SOC). Logs energy harvested for 90 days. LCD displays Watt-hours, kW-hours, Amp hours, and hours each day that Float mode is active. LCD shows SOC (State-of-Charge) in a fuel gauge style bar graph as well as % Full, Amp-hours, Watt-hrs and present charge or discharge current. A 50mV/500Amp shunt is required to use the Energy Monitor features. Auxiliary relays ……………….…. Two independent relays with form A (SPST) contacts for control of external devices. Configurable as NO or NC. Contact rating ½ Amp, 50 VDC. -40 oC to +60oC, Full power output to +45oC ambient, Output current automatically ramped down above 45oC: 1Amp per 1oC increase in temperature and then softly restored as temperature decreases. Card slot for optional Apollo Network and link to Remote Display and Internet Gateway. Connectors ………………………… Power lugs accept 14 to 1/0. No. 2 wire recommended. One 1” or 1-¼” and one ½” or ¾” on left side. Two ½” or ¾” on back. Two 1” or 1-¼” on bottom. Bottom holes line up with power connectors. 38.7cm X 21.6cm X 11.1cm (15.2“ X 8.5“ X 4.4“) Length X Width X Depth 53cm X 31.8cm X 21.6cm (21“ X 12 ½“ X 8 ½“) Weight …………………….………. Unit: 7.3 kg/16 lbs Shipping weight: 10 kg/22 lbs Certification ………………….….… Warranty ……………………………. Environmental……………………… Ambient Temperature: –40°C to +60°C; Storage Temperature: –55°C to +100°C; Humidity: 100% non-condensing; Enclosure: Indoor Type 1 Apollo Shunt Board and cable to T80, battery voltage monitor cable, and Battery Temperature Sensor (as shown in photo) True Sine Wave, Split-Phase Inverter/Chargers TSW3224, TSW4048; Inverter Switchgear Module (ISM) enclosure with DC and AC breakers, Pre-Wired Panels (PWP) which included a T80, TSW and ISM factory wired and tested, Communications Gateway with optional GSM modem for Remote Monitoring via local ethernet or via Internet 23 Francis J. Clarke Circle Bethel, CT 06801 (203) 790-6400 www.ApolloSolar.com Specifications are subject to change. April 2012

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Microsoft word - preliminary soma.doc

PRELIMINARY SUMMARY OF MAP ACTIONS To assist your community in maintaining the Flood Insurance Rate Map (FIRM), we have summarized below the previously issued Letter of Map Change (LOMC) actions (i.e., Letters of Map Revision (LOMRs) and Letters of Map Amendment (LOMAs)) that will be affected by the preparation of the enclosed revised FIRM panel(s). 1. LOMCs Incorporated The modification

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Journal of the Korean Magnetic Resonance Society 2006 , 10, 126 - 140 Quantification of Metabolic Alterations of Dorsolateral Pre-Frontal Cortex in Depression SD Rat by MR Spectroscopy Sung-Tak Hong1, Bo-Young Choe1*, Chi-Bong Choi1, 1Department of Biomedical Engineering, College of Medicine, The Catholic University of Korea, 505 Banpo-Dong, Seocho-Gu, Seoul 137-040, Korea 2MRI

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