Abstract: The invention provides an apparatus, method and means for capturing data. In an aspect, a differential and complementary input folded-cascode clocked amplifier is provided. In an aspect, the invention provides rail-to-rail input common-mode voltage range. In an aspect, the invention provides a setup/hold time window that is smaller than the setup/hold time window of a conventional clocked amplifier and a conventional input amplifier with a separate amplifier and latch. In an aspect, the invention provides high common-mode rejection as compared with conventional clocked sense amplifiers.

Abstract: In an electronic system having first and second logic devices, a free running on-chip clock signal is generated by the first logic device, where the signal has a frequency that is controlled to match that of a global free-running clock signal received by both devices. The on-chip clock signal is synchronized to a strobe signal received by the first device and that was transmitted in association with a data signal by the second device. A logic function is repeatedly performed as synchronized by the first clock signal, to repeatedly generate one or more bits from the data signal.

Abstract: A number of data symbols are driven into a transmission line while simultaneously driving the data symbols into another node. A difference between a signal level from the transmission line and a signal level from the other node while driving the symbols is determined. The difference is applied to a signal input of a variable offset comparator. One of a number of binary values (offset codes) are applied to an offset control input of the comparator, to adjust an implied, variable reference level of the comparator, prior to the comparator performing a comparison between the input signal and the implied reference level.

Abstract: The invention provides, in an embodiment, an apparatus, method and means for unintrusively observing, echoing and reading signals transmitted by one of a bus and wireless communication, without disturbing electrical properties of the bus, without adding bus latency, and without adding signal discontinuities. In an aspect, a buffer having a trigger is coupled with a component that connects to a memory bus, the buffer echoes signals to an observability port, and a diagnostic device reads the echoed signals. In an aspect, the bus is one of a simultaneous bi-directional (SBD) bus having ternary logic levels, a single ended bus, a differential bus, an optically coupled bus, a chipset bus, a frontside bus, an input/output (I/O) bus, a peripheral component interface (PCI) bus, and an industry standard architecture (ISA) bus. In an aspect, the buffer echoes bus signals having frequencies between 500 MHz. and 5 GHz. In an aspect, the buffer echoes bus signals having frequencies of at least 5 GHz.

Abstract: The invention provides an apparatus, method and means for capturing data. In an aspect, a differential and complementary input folded-cascode clocked amplifier is provided. In an aspect, the invention provides rail-to-rail input common-mode voltage range. In an aspect, the invention provides a setup/hold time window that is smaller than the setup/hold time window of a conventional clocked amplifier and a conventional input amplifier with a separate amplifier and latch. In an aspect, the invention provides high common-mode rejection as compared with conventional clocked sense amplifiers.

Abstract: In an electronic system having first and second logic devices, a free running on-chip clock signal is generated by the first logic device, where the signal has a frequency that is controlled to match that of a global free-running clock signal received by both devices. The on-chip clock signal is synchronized to a strobe signal received by the first device and that was transmitted in association with a data signal by the second device. A logic function is repeatedly performed as synchronized by the first clock signal, to repeatedly generate one or more bits from the data signal.

Abstract: A differential amplifier has input and output terminals to generate a second signal at the output terminals for a first signal. The amplifier has feedback switches between the output terminals and the input terminals. Offset capacitors are coupled to the differential amplifier at the input terminals and reference voltages via charging switches to provide offsets for the first signal form the reference voltages via input switches.

Abstract: A differential amplifier is provided, incorporating negative hysteresis by automatic reference voltage adjustment. A delayed output signal is routed to a switch or multiplexer which functions to select one of two reference voltage levels, creating negative hysteresis. The delayed output signal is delayed by a series of inverters, which prevent certain embodiments of the invention from oscillating under some conditions. The two reference voltage levels are selected to be near the respective data signal input high and low signal voltage levels, but far enough from these levels so as not to be adversely affected by noise or other interference.

Abstract: A frequency control unit has an input to receive a digital downstream strobe signal and an output to provide a controlled delay to the input strobe signal. A downstream latch has a data input to receive a digital downstream data signal and a clock input coupled to the output of the frequency control unit. The controlled delay is essentially equal to a set up time of the latch. A delay element coupled to the output of the frequency control unit further delays the downstream strobe signal by essentially a propagation time of the latch. Output drivers are coupled to the outputs of the latch and the delay element.

Abstract: A variable-delay circuit on an integrated circuit is used to delay a periodic strobe signal. In normal operation, the strobe signal can be shifted 90 degrees to center it within a data bit cell. In test mode, it can also be shifted up to 270 degrees in N increments to measure the effective input latch setup and hold timings. The variable-delay circuit comprises a voltage-mixing interpolator circuit to produce phase delays in N increments. The variable-delay circuit can incorporate an existing delay locked loop. Also described are an electronic system, a data processing system, and various methods of performing on-chip testing and calibration.

Abstract: A complementary input self-biased differential amplifier includes gain compensation devices. The gain compensation devices are in parallel with input transistors and are biased by a self-bias node. The gain control devices serve to keep current flowing in load devices when operating at common-mode extremes, thereby limiting the reduction in amplifier output impedance and limiting the corresponding reduction in differential-mode gain at common-mode extremes. The gain control devices also serve to reduce input stage transconductance near the center of the common-mode input voltage swing, thereby reducing differential-mode gain near the center of the swing, and reducing gain variations across the input common-mode range. The differential amplifier can include multiple input legs on either side of an input stage. Multiple legs allow multiple reference voltages to be compared to a data signal.