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Part Numbert	Mfg	Packt	D/C	Descriptiont	Qty	Company/Contact
MZP4734ARL	ONS		2009+		6159	Markaka Development Group Limi.. Contact:yang Tel:86-755-83317661 Fax: Email: sales@markaka.com

MZP4734ARL Datasheet

The TC811 is designed with true differential inputs and accepts input signals within the input stage common mode voltage range (VCM). The typical range is V+ - 1.0 to V- + 1.5V. Common-mode voltages are removed from the sys- tem when the TC811 0perates from a battery or floating power source (isolated from measured system) and VIN iS connected to Analog Common. (see Figure 8) In systems where common-mode voltages exist, the 86dB common-mode rejection ratio minimizes error. Com- mon-mode voltages do, however, aect the integrator out- put level. A worse case condition exists if a large positive VCM exists in conjunction with a full-scale negative dieren- tial signal. The negative signal drives the integrator output positive along with VCM (Figure 8). Forsuch applications the integrator output swing can be reduced below the recom- mended 2.OV full-scale swing. The integrator output will swing within 0.3V of V+ or V- without increased linearity erro r.
MZP4734ARL Price

Bezeichnung Description	Symbol Symbol	Wert Value	Einheit Unit
Fotoempfindlichkeit Spectral sensitivity Normlicht/standard light A, T= 2856 K ;VR = 0 V	S	1 30	nA/lx
Fotoempfindlichkeit Spectral sensitivity ;VR = 0 V, Ee = 0.25 mW/cm2	Se	1 3(8)
Wellenlange der max. Fotoempfindlichkeit Wavelength of max. sensitivity	Smax	1 550	nm
Spektraler Bereich der Fotoempfindlichkeit S= 10 % von Smax Spectral range of sensitivity S= 10 % of Smax		6001800	nm
Bestrahlungsempfindliche Flache Radiant sensitive area		1	mmZ
Abmessung der bestrahlungsempfindlichen Flache Dimensions of radiant sensitive area	×B ×	1×1	mm
Abstand Chipoberflache zu Gehauseober- flache Distance chip front to case surface	H	4.25	mm

MZP4734ARL on stock

", Temperature Compensated Performance '	J iA				G		Units
		Min	^l	Min		Min
' ~ REFERENCEACCURACY(L+H+R) ', .			i =
5 PSI	! '0.075		i25-		iO'26		% of Span, BFSL
i 3 PSI	D075.,		8^±		D2i		i % of Span, BFSL
Standard Output-Current Excitation:	j		^
:i 5PSI	{50	75	1500	75	j50i	75	nNdc
3 PSI	'0{20'-j	60	7i i20	60	120j	60	mVdc
Standard Output-Voltage Excltatlon: " .	- i-
5 PSI	75	40	i 75It	40	755-	40	mVdc
3 PSI	÷j	30	t=Oj	30	-6	30	mVdc
Normallzed Output-Current Excltatlon:	_jj		-		_Jr
5 PSI	100'+2 -		j4+-2		:1002		mVck
3 PSI	5Q2j		'j60±2		60i2		mVdc
: Normalized Output-Voltage Excitation:	-i i1				-7
5 PSI	40		- 40 +2		( 4Qv2 1		mVdc
3 PSI	25±		-2-1j		2		mVdc
Zero pressure output	#{27		l2		2-		mVdc
. ~ TEMPERATURE ACCURACY .	j?				I
Total Zero temperature error:			j t 71		__j j j j
-5 PSI	05 0		7{j-j		jjj		% Span in reference t0 270C
3 PSI	1--		15		i 3j		i % Span in reference t0 270C
TotaISpantemperatureerror: i: J	j ~		_=ji
6 PSI	--oS		j		j2		% Span in reference t0 270C
'3 PSI	Q0		li{		3+j7		i % Span in reference t0 270C .
Long-term drift	_oI2 j		t0j2		27t		% Span per 6 monlhs
Temperature Compensated Range ; '	300 t0 1300 Ff-			0 to +540C1
Operating Temperature Range	-400 to v2500 F (-400 to +1210 C)
. AmblentTemperature ' ' .	-400 to +2500 F (-400 to +1210 C)

APPLICATIONS 1. 6-bit D-A converter The ZN436 gives an analogue voltage output directly from pin 4 therefore the usual current to voltage converting amplifier is not required. The output voltage drift, due to the temperature coefficient of the analogue output resistance Ro, will be less than 0.004% per aC tor lLSB/lOOoC) if RL is chosen to be >650kfl. In order to remove the offset voltage and to calibrate the converter a buffer amplifier is necessary. Fig. 3 shows a typical scheme. To minimise temperature drift in this and similar

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