Mini SMD quattuor elementum Anti Jamming Digital Pyroelectric ultrarubrum sensorem

Quatuor autem pyroelectric ultrarubrum FPGA signum mini ab Anti- elementum felis Jamming Digital Pyroelectric ultrarubrum Sensor excedit intra limen specillo arithmetici intrinsecus venarum generatur. Ubi specillum accipit tale signum iterum: illud autem non videtur esse secundus accepit legumina. IV accipit illud II inducto venarum vigor seconds Semel in summo, specillum protinus te signa atque concisus clangor increpuerit, et generate REL pin habere excelsum campester mos trigger.

Model:462LA-D-PD-PIR

Mitte Inquisitionem

mini SMD quattuor elementum Anti Jamming Digital Pyroelectric ultrarubrum sensorem

Features
Parvus SMD reflow modum solidatorium
Digital signum processui
Virtutis vim servare possit fingere
Inaedificata filter, fortis anti-interventu
Populus Novifacta Quotidiana mollities, lux leo et imperium
Humilis voltage, Micro vim consummatio

application
Infrared motus deprehensio
Internet Rerum
Wearables
Dolor in domum appliances, home
dolor Luminaires
Securitatem, anti-furtum eget products
Network vigilantia systema, etc.

Product and recommended pad size diagram of mini SMD quattuor elementum Anti Jamming Digital Pyroelectric ultrarubrum sensorem

Basic parameters of mini SMD quattuor elementum Anti Jamming Digital Pyroelectric ultrarubrum sensorem
In ratings ultra quid faciam, ut in sequenti mensa permanens ad dampnum fabrica. Long-term usum valorem prope rated per reliability afficit, ut in fabrica.

Morbi	typicus	min	max	Unit	nota
voltage	vdd	2.2	3.7	V
View angle		CX ° X =	XC ° v =	°	Agro visum est ab angle theoretical pretii
temperatus repono	TST	-40	80	℃
aequalitatem deprehendere	λ	5	14	Î¼m

Internum tabula obstructionum

Working conditions (T=25° C, vdd=3V, unless otherwise specified)

Morbi	typicus	min	Typ	max	Unit	nota
Supply voltage	vdd	2.2	3	3.7	V
working current	IDD	9	9.5	11	Î¼A
Plasmodium limine	VSENS	90		2000	Î¼V
REL output
Humilis current output	IOL	10			mA	Vol <1V
Output princeps current	IOH			-10	mA	VOH>(vdd-1V)
REL iaces output tempus tincidunt	Pichena:		2		s	Non Populus Novifacta Quotidiana
REL altam output tempus tincidunt	TOH	2		3600	s
Intra sens / ontime
voltage input range		0		vdd/2	V	The adjustment range is between 0V and vdd/2
Initus current pondus		-1		1	Î¼A
Admitte OEN
Initus humilis voltage	VII	Inter 0.8V-1.2v regio est hysteresis		0.8	V	Altum limen humili intentione OEN
Initus altum voltage	VIII	1.2			V	Altum limen OEN humili intentione
Intra hodiernam	II	-1		1	Î¼A	Vss＜VIN＜vdd
Filtra et Oscillators
Sparguntur humili fauces frequentiam intervalli				7	HZ
Sparguntur fauces frequentiam summus abscise				0.44	HZ
Oscillator frequency et de chip	FCLK			64	kHZ

Ligulae modus output

Cum signo pyroelectric ultrarubrum probe ab intra limen excedens felis specillo arithmetici intrinsecus venarum generatur. Ubi specillum accipit tale signum iterum: illud autem non videtur esse secundus accepit legumina. IV accipit illud II inducto venarum vigor seconds Semel in summo, specillum protinus te signa atque concisus clangor increpuerit, et generate REL pin habere excelsum campester mos trigger.
Praeterea, sicut accepit signum amplitudo dum excedit magis quam V tempora ad trigger limine solum una vena requiritur enim ad trigger output de his REL.The ratione figure Consequat ut lacus tempus felis tabula. In triggers sunt plures casus, in sustentacionem incipit ab ultimo tempore REL output pulsu valet.

Ontime pin leo occasum
Ubi specillum detegit motu corporis dato erit output altam ad clavum REL. Ordine durationis attenditur agunt applicatur ontime pin (vide tabulam infra). Si summus gradu REL fabrica habeat plures felis generatae annuit, ut diu ut a felis sit signum nequiquam detecta fraude in REL tempus erit reset, et tunc leo et restarted.

1. The working current is related to the selected resistance R. The larger the resistance, the smaller the working current. The average current consumed by R during the REL effective delay period is: IR ≈ 0.75vdd/R. During the ineffective delay period, R consumes no current. If you have high power consumption requirements and are often in the effective delay time period, it is recommended to use the digital REL timing mode.

2. If the digital REL timing mode is adopted, the ONTIME pin is connected to a fixed potential whose maximum value is less than vdd/2 (in actual use, the resistor divider can be used to adjust the REL timing). The ONTIME input voltage sets the REL output holding time through the only trigger. Refer to the table below for the output delay timing (Time Td) and voltage settings. nota: When using the digital REL timing method, the ONTIME pin voltage must not be higher than vdd/2, and the timing time can only be selected from one of the 16 times in the table below. If the time in the table below is not suitable, it is recommended to use the analog REL timing method.

Tempus calces	Profecta tempus (s) (Typical valorem)	TEMPUS pin range voltage	Typ	Suspendisse valorem separator a resistor (accuracy% ± I)
				R. viverra-usque resistor	Viverra-descendit Resistentes Superavit RL
1	2	0~1/32vdd	1/64vdd	Non missae / 1M	0r
2	5	1/32vdd~2/32vdd	3/64vdd	1M	51K
3	10	2/32vdd~3/32vdd	5/64vdd	1M	82k
4	15	3/32vdd~4/32vdd	7/64vdd	1M	124K
5	20	4/32vdd~5/32vdd	9/64vdd	1M	165K
6	30	5/32vdd~6/32vdd	11/64vdd	1M	210k
7	45	6/32vdd~7/32vdd	13/64vdd	1M	255K
8	60	7/32vdd~8/32vdd	15/64vdd	1M	309K
9	90	8/32vdd~9/32vdd	17/64vdd	1M	360K
10	120	9/32vdd~10/32vdd	19/64vdd	1M	422k
11	180	10/32vdd~11/32vdd	21/64vdd	1M	487K
12	300	11/32vdd~12/32vdd	23/64vdd	1M	560K
13	600	12/32vdd~13/32vdd	25/64vdd	1M	634K
14	900	13/32vdd~14/32vdd	27/64vdd	1M	732K
15	1800	14/32vdd~16/32vdd	29/64vdd	1M	825K
16	3600	15/32vdd~16/32vdd	31/64vdd	1M	953K

Plasmodium occasus

N.	Sens pin voltage		N.	Sens pin voltage
	voltage range (vdd)	Central voltage (vdd)		voltage range (vdd)	Central voltage (vdd)
0	0 ~ I / LXIV	1/128	16	XVI / ~ LXIV XVII / LXIV	33/128
1	I / II ~ LXIV / LXIV	3/128	17	XVII / ~ LXIV XVIII / LXIV	35/128
2	II / III ~ LXIV / LXIV	5/128	18	XVIII / XIX ~ LXIV / LXIV	37/128
3	III / IV ~ LXIV / LXIV	7/128	19	XIX / XX ~ LXIV / LXIV	39/128
4	IV / V ~ LXIV / LXIV	9/128	20	XX / ~ LXIV XXI / LXIV	41/128
5	V / VI ~ LXIV / LXIV	11/128	21	XXI / ~ LXIV XXII / LXIV	43/128
6	VI / VII ~ LXIV / LXIV	13/128	22	XXII / XXIII ~ LXIV / LXIV	45/128
7	VII / ~ LXIV VIII / LXIV	15/128	23	XXIII / ~ LXIV XXIV / LXIV	47/128
8	VIII / IX ~ LXIV / LXIV	17/128	24	XXIV / ~ LXIV XXV / LXIV	49/128
9	IX / X ~ LXIV / LXIV	19/128	25	XXV / XXVI ~ LXIV / LXIV	51/128
10	X / ~ LXIV XI / LXIV	21/128	26	XXVI / ~ LXIV XXVII / LXIV	53/128
11	XI / XII ~ LXIV / LXIV	23/128	27	XXVII / XXVIII ~ LXIV / LXIV	55/128
12	XII / XIII ~ LXIV / LXIV	25/128	28	XXVIII / XXIX ~ LXIV / LXIV	57/128
13	XIII / ~ LXIV XIV / LXIV	27/128	29	XXIX / ~ LXIV XXX / LXIV	59/128
14	XIV / ~ LXIV XV / LXIV	29/128	30	XXX / ~ LXIV XXXI / LXIV	61/128
15	XV / ~ LXIV XVI / LXIV	31/128	31	XXXI / ~ LXIV XXXII / LXIV	63/128

The voltage input by SENS sets the sensitivity threshold, which is used to detect the strength of the PIR signal input by PIRIN and NPIRIN. When grounded, it is the minimum voltage threshold, and the sensitivity is the highest at this time. Any voltage exceeding vdd/2 will select the maximum threshold. This threshold is the lowest sensitive setting for PIR signal detection, that is, the sensing distance may be the smallest. It should be pointed out that the sensing distance of the infrared sensor is not linearly related to the SENS input voltage. Its distance is related to the signal-to-noise ratio of the sensor itself, the imaging object distance of the Fresnel lens, the background temperature of the moving human body, the ambient temperature, the ambient humidity, and electromagnetic interference. And other factors form a complex and multiple relationship, that is, the output result cannot be judged by a single index, and the debugging result shall prevail in actual use. The lower the voltage of the SENS pin, the higher the sensitivity, and the longer the sensing distance. There are a total of 32 sensing distances to choose from, and the closest sensing distance can reach centimeter level. In actual use, the resistance divider can be used to adjust the sensitivity.

Pin occasus OEN

OEN est ad enable pin output REL. Cum humili intentione OEN inputs in output est REL humiliabuntur Cum OEN inputs magna intentione cum Cosmos / NPIRIN clavum sensu communi humana felis signo per soni, REL outputs altam quam nulla humana felis signum transitque REL post leo tempus REL outputs humilis gradu. Post dies circiter II opposuitque seconds, in humano corpore signa sensibilia iterum. Aut fabricabitur photoresistor photodiode OEN coniungi potest intellegere in die operantes ne officio noctu.

Typical applicationem circuitu
Triode application exemplum

reflow solidatorium
Sensorem reflow instructiones solidatorium
Cum reflow solidatorium, sequitur quod velit temperatus infra curva in figura. Quidquid excedit, ut ostensum est per formam reflow temperatus est infra consule venditionesque in antecessum fectum.

packaging

nota: The standard package is 1000 pieces, and the package quantity and size vary slightly according to different models.

nota for welding
Ne excedant de maximam temperatus caliditas, in formam supra ostensum est curva, ut faciam ex aliter sensorem perficientur degradationem.
Et iterum repetere non reflow solidatorium et disassembly heating, quod graviter afficiunt vitam et perficiendi ex sensorem et non operuit per productum warantum.
Uti non corrosiuo et chemicals emundare optical filter (absolutum possit esse ethanol praeservatum), cuius causa aut a sensorem est malfunction deficient. Post illud nec soni annectitur, uti postea 1H commendatur.
Be careful not to touch the terminals with metal pieces or hands. nota for welding:

Caliditas operating elit (humiditas) range
＞ Temperature: Working temperature: -30℃～+70℃ (no fog or icing, temperature change may cause sensitivity and distance change) temperatus repono: -40℃～ +80℃
ï¼ Umor: Opus humiditas: å ¤ LXXXV% R. (vel si non fogged gelida)
Repono humiditas: å ¤ F. LX%
De usu harum ï¼ et recta accommodatio obtineri temperatus environment, in casu agitur de humiditas et temperatus sensorem potest facere opus ad semper, non sunt continui in opere environmental praesidium et diuturnitatem et bellum. Cum princeps humiditas et caliditas in in environment, ad sensorem movebitur motu accelerato canus.

aliis;
ï¼ Misoperation fieri potest ut static electricity ex electrothermal strepitu, fulgure, mobile phones, radios, et excelsum intensionem lumen.
Et firmiter installed ut mos terminatio ne ï¼ productum ut a malfunction fecit ventum quatiensque terga.
post impulsum, et fortis vibrationis et sic laedi ï¼ causa malfunction. Vitare summus viribus velit, aut in tremore impulsum.
ï¼ hoc productum est non IMPERVIUS et dustproof opus. Quod sit IMPERVIUS, dustproof, anti-anti-vico, ubi per condensationem illam.
ï¼ si alimentum in opus volatilizes Gas environment, et causa est malfunction.

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