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GBC Catena Laminators - LexJet
by damina 0 Comments favorite 4 Viewed Download 0 Times

Moderate production laminators Designed to encapsulate and mount prints from color printers and copiers, the Catena Series provides a simple way to finish your full-color digital output. These models all feature heated rollers. The Catina 65 and 105 can also run pressure-sensitive films in addition to thermal films. Catena 65 & 105 When productivity and profit count the most, the Catena 65 and 105 meet the requirements of your more demanding jobs. These larger units are able to handle a wider variety of applications including standard poster-sized prints. Catena 105 Catena 35 This compact laminator is designed to provide safe and convenient thermal lamination in offices and small print shops. Features and benefits Easy to use • LCD display indicates temperature, speed and Ready/Wait condition • Silicone rubber rollers ensure timely clean-up • Interlocking feed tray and magnetic safety shield provide safe operation • For safety and savings, AUTO-OFF powers down unit after two hours of non-use • The simple to use control panel allows the operator to make adjustments as needed for professionally laminated graphics Catena 65 Versatile • Designed for thermal (all models) and pressure-sensitive films (Catena 65 and 105) • Roller gap adjustment handles mounting boards up to 3/16" thick • Rewind shaft separates the pressure-sensitive release liner (Catena 65 and 105) Quality • Infrared heating coil distributes heat evenly and improves lamination quality • Microprocessor controls temperature and guarantees fast response time • Cooling fan ensures smooth, flat output • Will not interfere with electrical surroundings; no buzzing, humming or flickering lights Catena 35 Films and adhesives For best results use high-quality GBC® films and mounting adhesives • GBC Nap-Lam® ll Thermal film • Arctic® Pressure Sensitive film • GBC Digital Polyester film • Arctic Dura Mount adhesive • Octiva® thermal adhesive

Payday Lending Regulation - Board of Governors of the Federal ...

To date the debate over payday lending has focused on whether access to such lending is on net beneficial or harmful to consumer welfare. However, payday loans are not one product but many, and different forms of lending may have different welfare implications. The current diversity in payday lending stems from the diverse ways in which states have regulated the industry. This paper attempts to quantify the effects that various regulatory approaches have had on lending terms and usage. Using a novel institutional dataset of over 56 million payday loans, covering 26 states for nearly 6 years, I find that price caps tend to be strictly binding, size caps tend to be less binding, and prohibitions on simultaneous borrowing appear to have little effect on the total amount borrowed. Minimum loan terms affect loan length while maximum loan terms do not. Repeat borrowing appears to be negatively related to rollover prohibitions and cooling-off periods, as well as to higher price caps. Several states have used law changes to sharply cut their rate of repeat borrowing. However, this process has been disruptive, leading to lower lending volumes and, in at least one case, higher delinquency.

CFPB Data Point: Payday Lending - Consumer Financial Protection ...

In this Data Point we present the results of several analyses of consumers’ use of payday loans. The focus of the analyses is loan sequences, the series of loans borrowers often take out following a new loan. Key findings of this report include:  Over 80% of payday loans are rolled over or followed by another loan within 14 days (i.e., renewed). Same-day renewals are less frequent in states with mandated cooling-off periods, but 14-day renewal rates in states with cooling-off periods are nearly identical to states without these limitations. We define loan sequence as a series of loans taken out within 14 days of repayment of a prior loan.  While many loan sequences end quickly, 15% of new loans are followed by a loan sequence at least 10 loans long. Half of all loans are in a sequence at least 10 loans long.  Few borrowers amortize, or have reductions in principal amounts, between the first and last loan of a loan sequence. For more than 80% of the loan sequences that last for more than one loan, the last loan is the same size as or larger than the first loan in the sequence. Loan size is more likely to go up in longer loan sequences, and principal increases are associated with higher default rates.  Monthly borrowers are disproportionately likely to stay in debt for 11 months or longer. Among new borrowers (i.e., those who did not have a payday loan at the beginning the year covered by the data) 22% of borrowers paid monthly averaged at least one loan per pay period. The majority of monthly borrowers are government benefits recipients.  Most borrowing involves multiple renewals following an initial loan, rather than multiple distinct borrowing episodes separated by more than 14 days. Roughly half of new

Geothermal Heating and Cooling

http://www.universalservices1.com/ | Geothermal heating and cooling systems use the energy in the earth’s ground to heat and cool buildings without the use of fossil fuels.

Operator Manual - Electric Generators Direct

• Engine cooling air must not be used for heating the vehicle. Thoroughly read the OPERATOR’S MANUAL before operating the genset. Safe operation and top performance can only be obtained when equipment is properly operated and maintained. • Disable the automatic genset starting feature (AGS) of an inverter-charger or other automatic starting device before servicing the genset to avoid electric shock from an unexpected start. The following symbols in this manual alert you to potential hazards to the operator, service person and equipment. • Generator electrical output connections must be made by a trained and experienced electrician in accordance with applicable codes. alerts you to an immediate hazard that will result in severe personal injury or death.• The genset must not be connected to shore power (utility). Back-feed to shore power can cause electrocution and damage to equipment. An approved switching device must be used to prevent interconnections. alerts you to a hazard or unsafe practice that can result in severe personal injury or death.CAUTION alerts you to a hazard or unsafe practice that can result in personal injury or equipment damage. • Use caution when working on live electrical equipment. Remove jewelry, make sure clothing and shoes are dry, stand on a dry wooden platform or rubber insulating mat and use tools with insulated handles. When equipped with an integral or add−on Automatic Generator Starting System (AGS) control, exhaust carbon monoxide (CO), electric shock, and moving parts hazards are possible due to unexpected starting. Turn off AGS whenever performing maintenance or service, when the vehicle is stored between uses, is awaiting service, or is parked in a garage or other confined area.

Online Product Support - Generac Power Systems, Inc.

All input connections in one single area High coolant temperature shutdown Low oil pressure shutdown Low coolant level automatic shutdown Low fuel pressure Overspeed automatic shutdown Adjustable cranking timer Adjustable exercise timer Oil drain extension Cool flow radiator Closed coolant recovery system UV/Ozone resistant hosesWatertight state of the art electrical connectors Mainline circuit breaker Oil drain extension to frame rail Radiator drain extension Battery charge alternator 10 Amp static battery charger Battery and battery cables Battery rack Fan and belt guards Isochronous governor Coolant HeaterBuilt-in kW, kVAR and power factor meters Watertight electrical connectors Rodent proof construction High efficiency, low distortion Generac designed alternator Vibration isolated from mounting base Matching Generac transfer switches engineered and tested to work as a system All components easily accessible for maintenance Electrostatically applied powder paintInnovative design and fully prototype tested UL2200 Listed Solid state frequency compensated digital voltage regulator Dynamic and static battery charger Sound attenuated acoustically designed enclosure Quiet test for low noise level exercise Acoustically designed engine cooling system High flow low noise factory engineered exhaust system State of the art digital control system with H-100 microprocessor control panel

Extension board with ACS switches for STM8S Discovery Kit

STEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematic STEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematicSTEVAL-IHT007V1. Circuit schematic. Figure 1. Circuit schematic. AM10842v1. 3V3. VDD. 5V. P1 po we rs ele ct. 1. NR. ST. 2. OS. C. IN/P. A1. 3. O. SC. O. UT. STEVAL-IHT007V1 Figure 1. Circuit schematic Circuit schematic

CIRCUIT DRAWINGS AND WIRING DIAGRAMS Description Lesson ...

Successfully performing electrical work requires the ability to read and interpret many different types of drawings and diagrams. Understanding circuit symbols and components is another one of the basic building blocks needed to become an electrician. If an electrician misinterprets a drawing or diagram when wiring a house, devices could be incorrectly installed or even missed altogether. Knowing how to properly take information from an electrical drawing or diagram and apply it to the real world is essential for electricians. Lesson Outcomes The student will be able to: • Know the difference between a circuit drawing and a wiring diagram • Understand some basic symbols for schematic drawings and wiring diagrams • Produce a wiring diagram • Understand the difference between different types of diagrams • Know how to draw a basic floor plan with electrical symbols Assumptions Students will have been introduced to electrical equipment and terminology. In addition, they will understand: • Basic electrical circuits and theory • Branch circuit wiring • A basic top view floor plan Terminology Block diagram: a diagram of a system in which the principal parts or functions are represented by blocks connected by lines that show the relationships of the blocks.

Pololu 3pi Robot Simplified Schematic Diagram

2008 Pololu Corporation http://www.pololu.com/. Pololu. Pololu 3pi Robot Simplified Schematic Diagram page 1 of 1 rrc03a. D3a. RED. 2.21k. R26a. PD1. D3b. Pololu 3pi Robot Simplified Schematic Diagram J20 + VBAT 1 2 J7 reverse protection Q1 2 1 VIN POWER R4a 1k R4b 1k AVCC B2 2xAAA U3 PB2 (SS/OC1B) PB0 PB1 PB4 PB5 12 13 16 17 PB0 (CLKO/ICP1) PB1 (OC1A) PB4 (MISO) PB5 (SCK) PD2 PD4 PD7 32 2 11 PD2 (INT0) PD4 (XCK/T0) PD7 (AIN1) 1 3 10 9 15 1 VCC VCC 18 20 PD0 (RXD) PD1 (TXD) 30 31 PC0 (ADC0) PC1 (ADC1) PC2 (ADC2) PC3 (ADC3) PC4 (ADC4/SDA) PC5 (ADC5/SCL) ADC6 ADC7 19 22 VCC PD0 PD1 U4 C22 2.2 nF PC1 R13 220 VCC U5 C23 2.2 nF PC2 R14 ADC6 ADC7 220 J4 VCC VCC R15 10k R16 10k microcontroller U6 C24 2.2 nF 2 1 ATmega168 VBOOST 220 C32 0.1 uF 29 PC6 VCC PC6 (RESET) 33 GND 21 GND 5 GND 3 GND 2 Y1 20 MHz VCC 23 24 25 26 27 28 PB6 (XTAL1/TOSC1) PB7 (XTAL2/TOSC2) C18 0.1 uF C21 2.2 nF PC0 R12 6 4 AVCC AREF PD6 (OC0A/AIN0) PD5 (OC0B/T1) PB3 (MOSI/OC2A) PD3 (OC2B/INT1) 7 8 D6 5V zener VCC AVCC 14 PD6 PD5 PB3 PD3 D1b T1 D1a BLUE GND + BUZZER D5 BLUE VOUT pushbutton power circuit BZ1 L2 10 uH GND VIN VOUT 5.0 V linear regulator R33 1k GND B1 2xAAA BTN2 BTN1 + VIN VOUT 9.25 V boost switching regulator SW1 CHARGE VCC VBOOST PC3 R17 220 VCC C26 0.1 uF VCC VCC PB4 PB5 PC6 LCD1 Vss 1 VDD 2 Vo 3 R18 10k RS 4 R/W 6 PD4 DB0 8 R22 DB2 9 10k DB3 10 DB4 11 PB1 DB5 12 PB4 DB6 13 PB5 DB7 14 PD7 U8 reflectance sensor array and IR LED control 7 DB1 220 PB3 PB0 E 2 4 6 PC4 R19 PD2 5 J1 1 3 5 U7 C25 2.2 nF SW2 RESET AVRISP R25b 2.21k programming connection PD7 R25a 2.21k PD1 R26a 2.21k D4b T1 PC5 D3a RED R21 220 LEDON Q4 D3b T1 VCC VBOOST VCC U9 PB3 PD3 AIN1 AIN2 PWMA PD5 PD6 17 16 15 BIN1 BIN2 PWMB PC6 J6 B C R30 20k R31 20k 1 2 A 8x2 character LCD and user pushbuttons 21 22 23 19 VM1 VM2 VM3 ADC6 R27 1k R28 1k R29 1k R32 20k battery voltage sensing circuit 24 13 14 Vcc 20 AO1 AO1 1 2 AO2 AO2 5 6 BO1 BO1 11 12 BO2 BO2 VBAT LCD8X2 7 8 STBY 18 GND 3 4 9 10 PGND1 PGND1 PGND2 PGND2 C27 0.1 uF MO3 © 2008 Pololu Corporation http://www.pololu.com/ page 1 of 1 M2 MO4 MO2 MO1 M1 TB6612FNG motor driver and motors Pololu R20 220 R23 47k 1 2 R26b 2.21k D4a GREEN VCC J5 C28 0.1 uF rrc03a

SCHEMATIC DIAGRAM - ICM Controls
by asin 0 Comments favorite 13 Viewed Download 0 Times

SCHEMATIC DIAGRAM. (NATURAL GAS and ... Solid lines inside PCB are printed circuit board conductors and are not included in legend. 6. SCHEMATIC DIAGRAM. (NATURAL GAS and ... Solid lines inside PCB are printed circuit board conductors and are not included in legend. 6. Replace only with ...SCHEMATIC DIAGRAM. (NATURAL GAS and ... Solid lines inside PCB are printed circuit board conductors and are not included in legend. 6. Replace only with ...SCHEMATIC DIAGRAM. (NATURAL GAS and ... Solid lines inside PCB are printed circuit board conductors and are not included in legend. 6. Replace only with ...SCHEMATIC DIAGRAM. (NATURAL GAS and ... Solid lines inside PCB are printed circuit board conductors and are not included in legend. 6. Replace only with ...SCHEMATIC DIAGRAM. (NATURAL GAS and ... Solid lines inside PCB are printed circuit board conductors and are not included in legend. 6. Replace only with ...SCHEMATIC DIAGRAM. (NATURAL GAS and ... Solid lines inside PCB are printed circuit board conductors and are not included in legend. 6. Replace only with ...SCHEMATIC DIAGRAM. (NATURAL GAS and ... Solid lines inside PCB are printed circuit board conductors and are not included in legend. 6. Replace only with ...SCHEMATIC DIAGRAM. (NATURAL GAS and ... Solid lines inside PCB are printed circuit board conductors and are not included in legend. 6. Replace only with ...

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