German submarine U-34
U-34 may refer to one of the following German submarines:
- During the First World War, Germany also had these submarines with similar names:
- SM UB-34, a Type UB II submarine launched in 1915 and surrendered on 26 November 1918
- SM UC-34, a Type UC II submarine launched in 1916 and scuttled on 30 October 1918
- SM UB-34, a Type UB II submarine launched in 1915 and surrendered on 26 November 1918
- SM UC-34, a Type UC II submarine launched in 1916 and scuttled on 30 October 1918
German submarine U-34 (1936)
German submarine U-34 was a Type VIIA U-boat of Nazi Germany's Kriegsmarine during World War II.
She was laid down in September 1935, launched in July 1936 and commissioned in September.
The boat carried out seven patrols, sinking 22 ships and capturing two more. She was sunk in a collision in the Baltic in August 1943.
Design
As one of the first ten German Type VII submarines later designated as Type VIIA submarines, U-34 had a displacement of 626 tonnes (616 long tons) when at the surface and 745 tonnes (733 long tons) while submerged. She had a total length of 64.51 m (211 ft 8 in), a pressure hull length of 45.50 m (149 ft 3 in), a beam of 5.85 m (19 ft 2 in), a height of 9.50 m (31 ft 2 in), and a draught of 4.37 m (14 ft 4 in). The submarine was powered by two MAN M 6 V 40/46 four-stroke, six-cylinder diesel engines producing a total of 2,100 to 2,310 metric horsepower (1,540 to 1,700 kW; 2,070 to 2,280 shp) for use while surfaced, two BBC GG UB 720/8 double-acting electric motors producing a total of 750 metric horsepower (550 kW; 740 shp) for use while submerged. She had two shafts and two 1.23 m (4 ft) propellers. The boat was capable of operating at depths of up to 230 metres (750 ft).
Pulse-code modulation
Pulse-code modulation (PCM) is a method used to digitally represent sampled analog signals. It is the standard form of digital audio in computers, Compact Discs, digital telephony and other digital audio applications. In a PCM stream, the amplitude of the analog signal is sampled regularly at uniform intervals, and each sample is quantized to the nearest value within a range of digital steps.
Linear pulse-code modulation (LPCM) is a specific type of PCM where the quantization levels are linearly uniform. This is in contrast to PCM encodings where quantization levels vary as a function of amplitude (as with the A-law algorithm or the μ-law algorithm). Though PCM is a more general term, it is often used to describe data encoded as LPCM.
A PCM stream has two basic properties that determine the stream's fidelity to the original analog signal: the sampling rate, which is the number of times per second that samples are taken; and the bit depth, which determines the number of possible digital values that can be used to represent each sample.
PCM (disambiguation)
PCM or pulse-code modulation is a digital representation of an analog signal.
PCM may also refer to:
Computing
Technology
PCM30
The pulse code modulation (PCM) technology was patented and developed in France in 1938, but could not be used because suitable technology was not available until World War II. This came about with the arrival of digital systems in the 1960s, when improving the performance of communications networks became a real possibility. However, this technology was not completely adopted until the mid-1970s, due to the large amount of analog systems already in place and the high cost of digital systems, as semiconductors were very expensive. PCM’s initial goal was that of converting an analog voice telephone channel into a digital one based on the sampling theorem.
PCM30 describes an application of pulse-code modulation (PCM) in which 30 telephony analog signals are binary coded into a digital signal stream. The term is used today mostly as a synonym for the encoding of 30 channels each with a signalling rate of 64-kbit/s. This rate is also used in the first stage of European PDH technique, so PCM30 is also known as E1.
Fig
Fig, Fig., FIG, or figs may refer to:
Places
People
Abbreviations
Acronyms
Xfig
Xfig is a free and open source vector graphics editor which runs under the X Window System on most UNIX-compatible platforms.
In Xfig, figures may be drawn using objects such as circles, boxes, lines, spline curves, text, etc. It is also possible to import images in formats such as GIF, JPEG, EPS, PostScript, etc. Those objects can be created, deleted, moved or modified. Attributes such as colors or line styles can be selected in various ways. For text, 35 fonts are available.
Xfig saves figures in its native text-only "Fig" format. Xfig has a facility to print figures to a PostScript printer too. A convenient feature is the PSTEX or PDFTEX export format that allows a smooth integration of Xfig-generated images into LaTeX documents.
Most operations in Xfig are performed using the mouse, but some operations may also be performed using keyboard accelerators (shortcuts). The interface is designed for a three-button mouse, although it is also possible to use a two button or a one button mouse with appropriate emulation, for example on a Macintosh under OS X.
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