1. An apparatus for detecting a refresh period of a semiconductor memory, comprising:
a signal generating unit configured to generate a plurality of signal pairs, each signal pair includes one of a plurality of first reference signals that are respectively generated with the same timing as first to (N\u22121) pulses of a refresh period signal of order N, and one of a plurality of second reference signals that correspond to the plurality of first reference signals and are respectively generated with the same timing as second to N pulses of the refresh period signal; and
a refresh period detecting unit configured to detect a period of the refresh period signal using one of the plurality of signal pairs.
2. The apparatus of claim 1,
wherein the signal generating unit comprises a plurality of signal generators, each signal generator configured to generate a first reference signal corresponding to each order of the refresh period signal or a second reference signal of a previous order, and a second reference signal corresponding to each order at a timing corresponding to second to N pulses of the refresh period signal.
3. The apparatus of claim 2,
wherein each of the plurality of signal generators comprises:
a detecting unit configured to detect an enable timing of the refresh period signal or the second reference signal of the previous order and to provide an output based thereon; and
a reference signal output unit configured to output the first reference signal and the second reference signal using the output of the detecting unit.
4. The apparatus of claim 3,
where the detecting unit comprises:
an inverter configured to receive the refresh period signal or the second reference signal of the previous order and to produce an output;
a first transistor having a source coupled with a power supply terminal, a drain, and a gate configured to receive the output of the inverter; and
a latch circuit coupled with the drain of the first transistor and providing an output.
5. The apparatus of claim 4, further comprising:
a reset unit configured to reset the output of the latch circuit in response to a refresh completing command.
6. The apparatus of claim 5,
wherein the reset unit comprises:
a second transistor having a drain coupled with the drain of the first transistor, a source coupled with a ground terminal, and a gate configured to receive the refresh completing command.
7. The apparatus of claim 3,
wherein the reference signal output unit comprises:
a pulse generating unit configured to generate the first reference signal corresponding to each order in response to the output of the detecting unit;
a delay unit configured to delay the first reference signal for a predetermined time to provide an output; and
a logical circuit configured to perform a logical product on the output of the delay unit and the refresh period signal and output the second reference signal corresponding to each order.
8. The apparatus of claim 1,
wherein the refresh period detecting unit comprises:
a selecting unit configured to select one of the plurality of signal pairs according to a selection signal; and
a period detecting unit configured to detect the period of the refresh period signal using the signal pair selected by the selecting unit.
9. The apparatus of claim 8,
wherein the selecting unit comprises:
a plurality of switching units, each of which being configured to receive one of the plurality of signal pairs and output the signal pair according to a corresponding bit in the selection signal.
10. The apparatus of claim 9,
wherein each of the switching units comprises:
a first pass gate having an input terminal configured to receive the first reference signal of each corresponding signal pair and a control terminal configured to receive each corresponding selection signal bit; and
a second pass gate having an input terminal configured to receive the second reference signal of each corresponding signal pair, and a control terminal configured to receive the selection signal bit.
11. The apparatus of claim 8,
wherein the period detecting unit comprises:
a first NAND gate configured to receive the first reference signal and a test mode signal and to produce an output based thereon;
a second NAND gate configured to receive the second reference signal and the test mode signal and to produce an output based thereon; and
a latch circuit configured to receive the output of the first NAND gate and the second NAND gate, and output from an output terminal a period signal in which a predetermined level is maintained during a period ranging from a time point when the first reference signal is enabled to a time point when the second reference signal is enabled.
12. The apparatus of claim 11, further comprising:
a reset unit configured to reset the period signal in response to the test mode signal.
13. The apparatus of claim 12,
wherein the reset unit comprises:
an inverter configured to receive the test mode signal and to produce an output; and
a transistor having a drain coupled with the output terminal of the latch circuit, a source coupled to a ground terminal, and a gate configured to receive the output of the inverter.
14. A method of detecting a refresh period of a semiconductor memory, comprising:
generating a plurality of reference signals that are respectively synchronized with at least two pulses corresponding to pulses subsequent to a first pulse of a refresh period signal of order N in which pulses are generated with a predetermined period; and
selecting one from the plurality of reference signals, and detecting the period of the refresh period signal using the pulse of the refresh period signal that is generated at timing before the timing of the selected reference signal.
15. The method of claim 14,
wherein the generating of the plurality of reference signals comprises:
detecting that the refresh period signal is enabled, delaying a corresponding level of the refresh period signal for a predetermined time, and generating a logical product of the delayed result and the refresh period signal so as to generate a reference signal; and
detecting that the reference signal is enabled, delaying a corresponding level of the reference signal for a predetermined time, and generating a logical product of the delayed result and the reference signal so as to generate a reference signal corresponding to each order.
16. The method of claim 15, further comprising:
detecting that the reference signal of a previous order is enabled, delaying a corresponding level of the reference signal for a predetermined time, and generating a logical product of the delayed result and the reference signal of the previous order so as to generate a reference signal corresponding to each order.
17. The method of claim 14,
wherein the detecting of the period comprises:
generating a pulse that is synchronized with an enable timing of the reference signal corresponding to an order earlier than the order of the selected reference signal, and
generating a period detecting signal in which a predetermined level is maintained during a predetermined interval ranging from an enable timing of the pulse to the enable timing of the selected reference signal.
18. An apparatus for detecting a refresh period of a semiconductor memory, comprising:
a signal generating unit configured to generate a first reference signal having the same enable timing as a (N\u22121) pulse of a refresh period signal of order N using a first pulse of the refresh period signal in which pulses are periodically generated, and a second reference signal having the same enable timing as an N pulse corresponding to an order of a pulse subsequent to the first pulse among the pulses of the refresh period signal; and
a refresh period detecting unit configured to detect a period of the refresh period signal using the first reference signal and the second reference signal.
19. The apparatus of claim 18,
wherein the signal generating unit comprises:
a first signal generator configured to generate a signal whose periodic pulse is generated from a timing when a second pulse of the refresh period signal is generated, using the first pulse of the refresh period signal, and
a second signal generator configured to generate the first reference signal where a pulse having the same enable timing as a second pulse of the refresh period signal is generated, and the second reference signal where a periodic pulse is generated from a timing when a third pulse of the refresh period signal is generated, using the output of the first signal generator.
20. The apparatus of claim 19,
wherein the first signal generator comprises:
an inverter configured to receive the refresh period signal and produce an output;
a first transistor having a source coupled with a power supply terminal, a drain and a gate configured to receive the output of the inverter;
a latch circuit configured to be coupled with the drain of the first transistor and to produce an output;
a pulse generating unit configured to generate the pulse in response to the output of the latch circuit;
a delay unit configured to delay the output of the latch circuit for a predetermined time to produce an output; and
a logical circuit configured to generate a logical product on the output of the delay unit and the refresh period signal and output the result of the logical product.
21. The apparatus of claim 20, further comprising:
a reset unit configured to reset the output of the pulse generating unit in response to a refresh completing command.
22. The apparatus of claim 21,
wherein the reset unit comprises:
a second transistor having a drain coupled with the drain of the first transistor, a source coupled with a ground terminal, and a gate configured to receive the refresh completing command.
23. The apparatus of claim 19,
wherein the second signal generator comprises:
an inverter configured to receive the signal from the first signal generator to produce an output;
a first transistor having a source coupled with a power supply terminal, a drain and a gate configured to receive the output of the inverter;
a latch circuit configured to be coupled with the drain of the first transistor and to produce an output;
a pulse generating unit configured to generate the pulse in response to the output of the latch circuit;
a delay unit configured to delay the output of the latch circuit for a predetermined time; and
a logical circuit configured to perform a logical product on the output of the delay unit and the output of the first signal generator and output the second reference signal.
24. The apparatus of claim 23, further comprising:
a reset unit configured to reset the first reference signal in response to a refresh completing command.
25. The apparatus of claim 24,
wherein the reset unit comprises:
a second transistor having a drain coupled with the drain of the first transistor, a source coupled with a ground terminal, and a gate configured to receive the refresh completing command.
26. The apparatus of claim 18,
wherein the refresh period detecting unit comprises:
a first NAND gate configured to receive the first reference signal and a test mode signal and to produce an output based thereon;
a second NAND gate configured to receive the second reference signal and the test mode signal and to produce an output based thereon; and
a latch circuit configured to receive the output of the first NAND gate and the second NAND gate, and output from an output terminal a period signal in which a predetermined level is maintained during an interval of time ranging from a time point when the first reference signal is enabled to a time point when the second reference signal is enabled.
27. The apparatus of claim 26,
wherein the latch circuit comprises:
a third NAND gate having a first input terminal receiving the output of the first NAND gate, a second input terminal and configured to produce an output; and
a fourth NAND gate configured to receive the output of the second NAND gate and the third NAND gate, and to provide its output to the second input terminal of the third NAND gate.
28. The apparatus of claim 26, further comprising:
a reset unit configured to reset the period signal in response to the test mode signal.
29. The apparatus of claim 28,
wherein the reset unit comprises:
an inverter configured to receive the test mode signal and to produce an output based thereon; and
a transistor having a drain coupled with the output terminal of the latch circuit, a source coupled with a ground terminal, and a gate configured to receive output of the inverter.
30. A method of detecting a refresh period of a semiconductor memory, comprising:
generating a pulse having the same enable timing as a second pulse of a refresh period signal of order N, using a first pulse of the refresh period signal in which pulses are periodically generated;
generating, using the pulse, a first reference signal having the same enable timing as an (N\u22121) pulse corresponding to an order of a pulse subsequent to the first pulse of the refresh period signal and a second reference signal having the same enable timing as an N pulse of the refresh period signal; and
detecting a period of the refresh period signal using the first reference signal and the second reference signal.
31. The method of claim 30,
wherein the generating of the pulse comprises:
delaying the first pulse of the refresh period signal for a predetermined time, and generating a logical product from the delayed result and the refresh period signal.
32. The method of claim 30,
wherein the generating of the second reference signal comprises:
delaying the first reference signal for a predetermined time and generating a logical product from the delayed result and the refresh period signal.
33. The method of claim 30,
wherein the detecting of the period comprises:
outputting a period detecting signal in which a predetermined level is maintained during a predetermined interval of time ranging from a time point when the first reference signal is enabled to a time point when the second reference signal is enabled.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A protection system for a light weight utility vehicle accelerator and brake (A&B) assembly, said system comprising a brake pedal (BP) protective boot sealingly fitted around a brake pedal arm of the brake (A&B) assembly and an accelerator pedal (AP) protective boot sealingly fitted around an accelerator pedal arm of the brake (A&B) assembly.
2. The system of claim 1, wherein the AP protective boot comprises a neck portion that sealingly fits around the accelerator pedal arm and the AP protective boot has a low height profile at the neck portion.
3. The system of claim 2, wherein the AP protective boot has a height of approximately 40 to 48 millimeters at the neck portion.
4. The system of claim 2, wherein the AP protective boot is adapted to allow the neck portion to move with the accelerator pedal arm though an entire travel range of the accelerator pedal arm.
5. The system of claim 2, wherein the AP protective boot is adapted to allow the neck portion to move with the accelerator pedal arm though a travel range of between approximately 45\xb0 and 60\xb0.
6. The system of claim 1, wherein the AP boot comprises a base formed to fit over a raised wall around an accelerator pedal arm opening in a mounting plate cover covering the A&B assembly, the AP boot base adapted to couple to a mounting plate cover.
7. The system of claim 6, wherein the system further comprises a floor mat adapted to fit around the AP boot base and overlay a lip of the AP boot base.
8. The system of claim 1, wherein the BP boot comprises a base formed to fit over a raised wall around a brake pedal arm opening in a mounting plate cover covering the A&B assembly, the BP boot base adapted to couple to a mounting plate cover.
9. The system of claim 8, wherein the system further comprises a floor mat adapted to fit around the BP boot base and overlay a lip of the BP boot base.
10. The system of claim 1, wherein the AP boot comprises a base adapted to couple to a mounting plate of the A&B assembly such that the AP boot is located below and substantially concealed by a mounting plate cover; and the BP boot comprises a base adapted to couple to the mounting plate such that the BP boot is located below and substantially concealed by the mounting plate cover.
11. A protection system for a light weight utility vehicle accelerator and brake (A&B) assembly, said system comprising:
a brake pedal (BP) protective boot sealingly fitted around a brake pedal arm of the brake (A&B) assembly;
an accelerator pedal (AP) protective boot sealingly fitted around an accelerator pedal arm of the brake (A&B) assembly; and
a mounting plate cover covering a mounting plate of the A&B assembly, the mounting plate cover comprising a raised wall around a brake pedal arm opening and a raised wall around an accelerator pedal arm opening.
12. The system of claim 11, wherein the AP protective boot comprises a neck portion that sealingly fits around the accelerator pedal arm.
13. The system of claim 12, wherein the AP protective boot has a height of approximately 40 to 48 millimeters at the neck portion and is adapted to allow the neck portion to move with the accelerator pedal arm though an entire travel range of the accelerator pedal arm of approximately 45\xb0 to 60\xb0.
14. The system of claim 11, wherein the AP boot comprises a base portion comprising a body formed to fit over and substantially conform with the raised wall around the accelerator pedal arm opening, and a lip for coupling the AP boot to the mounting plate cover.
15. The system of claim 14, wherein the BP boot comprises a base portion comprising a body formed to fit over and substantially conform with the raised wall around the brake pedal arm opening, and a lip for coupling the BP boot to the mounting plate cover.
16. The system of claim 15, wherein the system further comprises a floor mat adapted to fit around the AP boot base portion body and overlay the lip of the AP boot base portion and to fit around the BP boot base portion body and overlay the lip of the BP boot base portion.
17. The system of claim 11, wherein the AP boot and the BP boot each comprise a base portion adapted to couple to the mounting plate such that the AP and BP boots are located below and substantially concealed by the mounting plate cover.
18. A light weight utility vehicle comprising:
an accelerator and brake (A&B) assembly for controlling movement of the utility vehicle; and
a protection system for protecting the A&B assembly, the protection system comprising:
a mounting plate cover covering a mounting plate of the A&B assembly, the mounting plate cover comprising a raised wall around a brake pedal arm opening and a raised wall around an accelerator pedal arm opening;
a brake pedal (BP) protective boot comprising a neck portion and a base portion, the neck portion sealingly fitting around a brake pedal arm, the base portion comprising a body that fits over and substantially conforms with the raised wall around the brake arm opening and a lip for coupling the BP boot to the mounting plate cover; and
an accelerator pedal (AP) protective boot comprising a neck portion and a base portion, the neck portion sealingly fitting around an accelerator pedal arm, the base portion comprising a body that fits over and substantially conforms with the raised wall around the accelerator arm opening a lip for coupling the AP boot to the mounting plate cover.
19. The vehicle of claim 18, wherein the AP protective boot has a height of approximately 40 to 48 millimeters at the neck portion and is adapted to allow the neck portion to move with the accelerator pedal arm though an entire travel range of the accelerator pedal arm of approximately 45\xb0 to 60\xb0.
20. The vehicle of claim 18, wherein the protection system further comprises a floor mat adapted to fit around the AP boot base portion body and overlay the lip of the AP boot base portion and to fit around the BP boot base portion body and overlay the lip of the BP boot base portion.