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Why Use Zend Framework? Alan Seiden PHP on IBM i consultant/developer email: email@example.com blog: http://alanseiden.com Strategic Business Systems, Inc. • Developing Web apps on IBM i (and iSeries, i5...) since 1996 • Based in Ramsey, New Jersey • IBM Business Partner Power Systems hardware, software, development, consulting • Zend Business Partner Working with Zend since they brought PHP to IBM i in 2006 We offer Zend’s training and Zend Server software to complement our consulting/development services Alan Seiden, Strategic Business Systems Why Use Zend Framework | | 2 Alan Seiden PHP on IBM i Developer / Consultant / Mentor • • • Contributor to IBM’s Redbook PHP: Zend Core for i5/OS First IBM i developer certified in Zend Framework Developer of IBM/COMMON’s “Best Web Solution” of 2009 Contact: firstname.lastname@example.org or 201-327-9400 Blog/articles: http://alanseiden.com Alan Seiden, Strategic Business Systems Why Use Zend Framework | | 3 What we’ll discuss today • Zend Framework as the premier PHP framework • Why ZF is a great match for the IBM i • What ZF can do for your PHP/i projects • How to get started! • Questions Alan Seiden, Strategic Business Systems Why Use Zend Framework | | 4 What I’ve been doing lately with PHP and ZF Alan Seiden, Strategic Business Systems Why Use Zend Framework | | 5
Stone's Toyota welcomes you to come by and visit our dealership in Rexburg, with a broad selection of new and used Toyota Cars, Trucks, and SUVs, serving the Idaho Falls, Rigby, Ashton, St. Anthony, Driggs, Victor, Pocatello, and Jackson, Wyoming areas. Being a leading auto dealership in our community, we take pride in the vehicles we sell and are committed to providing our customers with outstanding customer experience and quality service.
TROUBLESHOOTING CONDITION Low oil warning light stays on: ACTION Check oil level. Check for leaks. If the problem persists, visit your Toyota Dealer Service Department for diagnosis and repair. DO NOT DRIVE THE VEHICLE IF NO OIL IS VISIBLE ON THE DIPSTICK OR IF THE OIL WARNING LIGHT STAYS ON. There is an odor of hot motor oil: The "Check Engine" light comes on: Check for oil leaks or spills. Some oil may have spilled on the engine or exhaust. Wait until the engine or exhaust cools, then wipe off the excess oil with a rag. The remaining damp area should dry as the engine or exhaust warms up and the oil evaporates. If the oil spot or oil spill reappears, oil is leaking and other maintenance or repair is needed. Take the vehicle to your Toyota Dealer Service Department for diagnosis and repair. Please refer to the following sources for additional information: • • • • Your vehicle’s Owner’s Manual Your vehicle’s Repair Manual Genuine Toyota Motor Oil Brochure Genuine Toyota Oil Filter Brochure
A shop recently called our hotline in a panic! “I have a 2005 Toyota Prius, in for an oil change,” said the caller, “and the car started by itself when it was on the lift! There was NO oil in the engine and the oil drain plug is in my hand!!” This story is real, and the names have been changed to protect the innocent. So where did the tech go wrong? It is easy to say after the fact that the shop was not properly trained to work on this Hybrid car. But this was a gas engine oil change, not a high voltage electric motor service. My opinion on the training is not as grim. While Hybrid vehicle training is definitely needed, what is often needed is simply familiarization and safety training to do most service work. In my opinion, you do not need to be a Hybrid “Guru” to service Hybrid vehicles. So what happened to this car? Why did it run with the drain plug out? The real key to this problem was in the smart key system (no pun intended). Many cars now have smart keys in them today - not just Hybrids. However, this Hybrid by nature gave the tech a false sense of security that added to the problem. This is because a Toyota Hybrid Gas Engine does not usually run at idle. If you are not familiar with the smart key system, it is a system that essentially allows the customer to open and start their car without ever taking the keys out of their pocket. A customer (or technician) would walk up to their car, have the Transponder (key fob, as seen in figure 2) in their pocket,...
LEGENDARY GRIFFITH COLLECTION OF IMPORTANT ROBOTS AND ANTIQUE TOYS CARPENTER TALLY-HO COACH SELLS FOR $66,300 SETTING A RECORD FOR A CAST-IRON, HORSE-DRAWN TOY AT AUCTION --OTHER AUCTION RECORDS ESTABLISHED FOR ROBOT MIGHTY 8, TELEVISION ROBOT, SPACE PATROL CAR, TREMENDOUS MIKE, SPACE CRUISER X 300, JUPITER ROBOT, RANGER ROBOT AND RADAR ROBOT (a.k.a Topolino)---SALES OF ROBOTS AND ANTIQUE TOYS FROM THE ESTATE OF F.H. GRIFFITH CONTINUE ONLINE AT SOTHEBYS.COM-December 9, 2000 -- New York, NY – In a packed salesroom at Sotheby’s in New York today, 399 lots of Important Robots and Antique Toys from the Estate of F.H. Griffith totaled $1.4 million. Competitive bidding for toys and robots from this famed collection drove some prices up to two and three times their high estimates and established nine records for various robots and toys at auction. Highlighting today’s sale was the Carpenter Tally-Ho Coach, circa 1885 which sold for $66,300 establishing a new record for a cast-iron, horse-drawn toy at auction. Leila Dunbar, Senior Vice President and Director of Sotheby’s Collectibles Department said, “Just like Sotheby’s sale of the Matt Wyse Robot Collection in 1996, the records set today prove that prices for robots and space toys continue to conquer new frontiers.”
A summary of Toyota warranty policy is provided to you as a courtesy. The Owner's Warranty Information Booklet may be found the vehicle. Toyota Motor Sales, U.S.A. will repair or replace, at its option, any factory-installed part that is defective in materials or workmanship under normal use. Warranty repairs will be made free of charge for parts and labor. Any needed part replacements will be made using new or remanufactured parts. *The warranty period begins on the vehicle's in-service date, which is the first date the vehicle is either delivered to an ultimate purchaser, leased, or used as a company car or demonstrator. COMPREHENSIVE WARRANTY Length of Coverage • The Toyota comprehensive warranty is in effect for 36 months or 36,000 miles, whichever occurs first, from the vehicle's in-service date. What Is Covered • • Any repair or replacement that becomes necessary due to a defect in materials or workmanship is warrantable with the exception of the items listed under "What Is Not Covered." The comprehensive warranty includes coverage of service adjustments for 36 months or 36,000 miles from the vehicle's in-service date, whichever occurs first, except for wheel balancing and wheel alignments, which are limited to one repair during the first 12 months or 20,000 miles, whichever occurs first.
BODY ELECTRICAL ASSIGNMENT WORKSHEETS Version 1.3 MAZDA ELECTRICAL WIRING DIAGRAM WORKBOOK http://www.autoshop101.com Developed by Kevin R. Sullivan All rights reserved. MAZDA Table of Contents Wiring Diagrams 1. Understanding Diagrams Page U-1 Lighting Systems 1. 2. 3. 4. Headlights Turnsignals & Hazard Stop Lights Backup / Horn Page Page Page Page L-1 L-2 L-3 L-4 Page Page Page Page Page Page A-1 A-2 A-3 A-4 A-5 A-6 Accessories Systems 1. 2. 3. 4. 5. 6. Power Windows Power Mirrors Door Locks Clock & Cig Lighter Front Wiper & Washer Blower MAZDA Understanding Wiring Diagrams Worksheets U-1 Page 1 MAZDA WIRING DIAGRAMS REFERENCE U-1 Page 2 MAZDA WIRING DIAGRAMS REFERENCE U-1 Page 3... MAZDA WIRING DIAGRAMS. WORKSHEET #1. 1. Describe the meaning of the dotted line in the diagram component P. 2. Describe and identify the diagram ...
BODY ELECTRICAL COMBINED CLASSROOM PRACTICE SHEETS VERSION 1.0 PRACTICE ELECTRICAL WIRING DIAGRAMS http://www.autoshop101.com Compiled by Kevin R. Sullivan Table of Contents I. Starting & Charging System Description 1. Toyota Starting 2. Mazda Starting 3. GM Starting 4. Toyota Charging 5. Mazda Charging 6. GM Charging Page Section# Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 # of Pages (2) (2) (2) (2) (2) (2) Page Section# Section 7 Section 8 Section 9 Section 10 Section 11 Section 12 Section 13 Section 14 Section 15 Section 16 Section 17 Section 18 Section 20 Section 19 Section 21 Section 22-A Section 22-B # of Pages (7) (4) (4) (4) (4) (7) (4) (4) (4) (4) (4) (4) (2) (3) (4) (3) (3) Page Section# Section 23 Section 24 Section 25 Section 26 Section 27 Section 28 # of Pages (2) (2) (2) (2) (2) (2) II. Lighting System Description 1. Toyota Headlights (2 beam) 2. Toyota Headlights (4 beam) 3. Mazda Headlights (2 beam) 4. GM Headlights - Part A 5. GM Headlights - Part B 6. Toyota Turnsignal/Hazard 7. Mazda Turnsignal/Hazard 8. Toyota Stoplamps 9. Mazda Stoplamps 10. GM Exterior Lights (Part A) 11. GM Exterior Lights (Part B) 12. GM Exterior Lights (Part C) 13. Mazda Interior Lights 14. Toyota Interior Lights 15. Toyota Auto Off Headlamps 16. Toyota Daytime Running Lights 1 17. Toyota Daytime Running Lights 2 III. Accessories System Description 1. Toyota Horn 2. Mazda Horn / Backup Lamps 3. Toyota Window Defogger 4. Toyota Window Defogger w/timer 5. GM Window Defogger 6. Mazda Clock / Defogger III. Accessories - Continued System Description 7. Toyota Clock / Cig Lighter 8. Toyota Power Windows 9. Mazda Power Windows 10. GM Power Window - Part A 11. GM Power Window - Part B 12. Toyota Mirrors 13. Mazda Mirrors 14. GM Mirrors 15. Toyota Door Locks 16. GM Door Locks - Part A 17. GM Door Locks - Part B 18. Toyota Front Wiper / Washer 19. Mazda Front Wiper / Washer 20. GM Front Wiper / Washer 21. Toyota Sun Roof 22. GM Sun Roof 23. GM Shift Interlock 24. Toyota Shift Interlock 25. Toyota Power Seats 26. GM Power Seats 27. GM Audible Warning 28. GM Brake Warning 29. GM Charge Warning 30. Toyota Cooling Fan 31. Mazda Cooling Fan 32. GM Cooling Fan 33. Toyota Blower Motor 34. GM Blower Motor 35. Mazda Blower & AC Fan 36. Toyota Power Antenna
May 14, 1996 ... FM receiver circuit for battery supply. TDA7088T. FEATURES. • Equipped with all stages of a mono receiver from antenna to audio output. 2.50 2.55 2.60 V V3 DC voltage on pin 3
The TDA7000 is a monolithic integrated circuit for mono FM portable radios, where a minimum on peripheral components is important (small dimensions and low costs). The IC has an FLL (Frequency-Locked-Loop) system with an intermediate frequency of 70 kHz. The i.f. selectivity is obtained by active RC filters. The only function which needs alignment is the resonant circuit for the oscillator, thus selecting the reception frequency. Spurious reception is avoided by means of a mute circuit, which also eliminates too noisy input signals. Special precautions are taken to meet the radiation requirements. The TDA7000 includes the following functions: • R.F. input stage • Mixer • Local oscillator • I.F. amplifier/limiter • Phase demodulator • Mute detector • Mute switch QUICK REFERENCE DATA 2,7 to 10 V Supply voltage range (pin 5) VP Supply current at VP = 4,5 V IP typ. R.F. input frequency range frf 1,5 to 110 MHz 8 mA Sensitivity for -3 dB limiting (e.m.f. voltage) (source impedance: 75 Ω; mute disabled) EMF typ. 1,5 µV EMF typ. 200 mV Signal handling (e.m.f. voltage) (source impedance: 75 Ω) A.F. output voltage at RL = 22 kΩ Vo PACKAGE OUTLINE 18-lead DIL; plastic (SOT102HE); SOT102-1; 1996 July 24. May 1992 2 typ. 75 mV Philips Semiconductors Product speciﬁcation FM radio circuit TDA7000 Fig.1 Block diagram. May 1992 3 Philips Semiconductors Product speciﬁcation FM radio circuit TDA7000 RATINGS Limiting values in accordance with the Absolute Maximum System (IEC 134) Supply voltage (pin 5) VP max. 12 V Oscillator voltage (pin 6) V6-5 Total power dissipation see derating curve Fig.2 Storage temperature range Tstg Operating ambient temperature range Tamb VP−0,5 to VP + 0,5 V −55 to +150 °C 0 to + 60 °C Fig.2 Power derating curve. D.C. CHARACTERISTICS VP = 4,5 V; Tamb = 25 °C; measured in Fig.4; unless otherwise speciﬁed... A.C. CHARACTERISTICS VP = 4,5 V; Tamb = 25 °C; measured in Fig.4 (mute switch open, enabled); frf = 96 MHz (tuned to max. signal at 5 µV e.m.f.) modulated with ∆f = ± 22,5 kHz; fm = 1 kHz; EMF = 0,2 mV (e.m.f. voltage at a source impedance of 75 Ω); r.m.s. noise voltage measured unweighted (f = 300 Hz to 20 kHz); unless otherwise speciﬁed... Signal handling (e.m.f. voltage) for THD < 10%; ∆f = ± 75 kHz Signal-to-noise ratio Total harmonic distortion AM suppression of output voltage (ratio of the AM output signal referred to the FM output signal) FM signal: fm = 1 kHz; ∆f = ± 75 kHz AM signal: fm = 1 kHz; m = 80% Ripple rejection (∆VP = 100 mV; f = 1 kHz) Oscillator voltage (r.m.s. value) at pin 6 Variation of oscillator frequency ∆fosc...