at btlc1000-mr110ca ble module datasheet description the at btlc1000-mr110ca is an ultra-low power bluetooth ? smart (ble 4.1) module with integrated transceiver, modem, mac, pa, tr switch, and power management unit (pmu). it can be used as a bluetooth low energy link controller or data pump with external host mcu. the qualified bluetooth ? smart protocol stack is stored in dedicated rom, the firmware includes l2cap service layer protocols, security manager, attribute protocol (att), generic attribute profile (gatt), and the generic access profile (gap). additionally, application profiles such as proximity, thermometer, heart rate, blood pressure and many others are supported and included in the protocol stack. the module contains all circuitry required including a ceramic high gain antenna, 26mhz crystal, and pmu circuitry. the customer simply needs to place the module on his board and provide power and a 32khz real time clock or crystal. features ? complies with bluetooth v4.1, etsi en 300 328 , and en 300 440 class 2, fcc cfr47 part 15, arib std-t66, and telec ? bluetooth certification C qd id controller (see declaration d028678) C qd id host (see declaration d028679 ? 2.4ghz transceiver and modem C -95dbm/-93dbm programmable receiver sensitivity C -20 to +3.5dbm programmable tx output power C integrated t/r switch C single wire antenna connection ? arm cortex ? -m0 32-bit processor C single wire debug (swd) interface C 4-channel dma controller C brown out detector and power on reset C watch dog timer ? memory C 128kb embedded ram (96kb available for application) C 128kb embedded rom ? hardware security accelerators C aes- 128 C sha- 256 atmel - 42514 e - atbtlc1000 - mr110ca - ble - module_datasheet_0 8 / 2016
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 2 2 ? peripherals C 12 digital and 1 wa ke up gpio C two mixed signal gpios C programmable 96k pull-up or pull-down resistor for each gpio C retention capable gpio pads C 1x spi (master/slave) C 2x i 2 c (master/slave) C 2x uart C 1x spi flash C 3-axis quadrature decoder C 4x pulse width modulation (pwm), three general purpose timers, and one wake up timer C 2-channel 11-bit adc ? clock C integrated 26mhz oscillator C 26mhz crystal oscillator C fully integrated sleep oscillator C 32khz rtc crystal oscillator ? ultra low power C less than 1.15a (8kb ram retention and rtc running) C 3.0ma peak tx current (vbat=3.6v, 0dbm tx power) C 4.2ma peak rx current (vbat=3.6v, -95dbm sensitivity) C very low average advertisement current (dependent on advertisement interval) ? integrated power management C 1.8 -4.3v input range for pmu C 1.62 -4.3v input range for i/o C fully integrated buck dc-dc converter
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 3 3 ta bl e of conte nts 1 ordering information ................................ ................................................................... 4 2 package information ................................ ................................................................... 4 3 block diagram ............................................................................................................. 5 4 pinout information ....................................................................................................... 6 4.1 pin assignment ..................................................................................................................................... 6 4.2 pin description ...................................................................................................................................... 7 4.3 module outline drawing ................................ ........................................................................................ 8 5 electrical specifications ................................ ............................................................. 9 5.1 absolute maximum ratings ................................ ................................................................................... 9 5.2 recommended operating conditions ................................................................................................... 9 5.3 restrictions for the power states ................................ .......................................................................... 9 5.4 power sequences ............................................................................................................................... 10 5.4.1 power-up sequence ................................ ............................................................................... 10 5.4.2 power-down sequence ................................ .......................................................................... 11 5. 5 digital i/o pin behavior during power-up sequences ......................................................................... 11 5.6 rtc pins ............................................................................................................................................. 12 6 characteristics ........................................................................................................... 13 6.1 device states ...................................................................................................................................... 13 6.2 receiver performance ................................ ......................................................................................... 13 6.3 transmitter performance ................................ ..................................................................................... 14 7 schematic content .................................................................................................... 15 7.1 application schematic ................................ ......................................................................................... 15 8 placement and routing guidelines .......................................................................... 17 8.2 power and ground .............................................................................................................................. 18 9 interferers ................................................................................................................... 19 10 reference documentation and support ................................................................... 20 10.1 reference documents ................................ ......................................................................................... 20 11 certifications ............................................................................................................. 21 11.1 agency compliance ............................................................................................................................ 21 12 reflow profile information ................................ ........................................................ 22 12.1 storage condition ................................................................................................................................ 22 12.1.1 moisture barrier bag before opened ..................................................................................... 22 12.1.2 moisture barrier bag open ................................ ..................................................................... 22 12.2 stencil design ..................................................................................................................................... 22 12.3 baking conditions ............................................................................................................................... 22 12.4 soldering and reflow condition ................................ .......................................................................... 22 12.4.1 reflow oven ........................................................................................................................... 22 13 errata ....................................................................................................................... 24 14 revision history ........................................................................................................ 25
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 4 4 1 ordering information table 1- 1. ordering code ordering code package description atbtlc1000 - mr110ca 12.7 x 20.15mm chip antenna 2 package information table 2- 1. atbtlc1000- mr 110ca module information (1) parameter value units tolerance package size 12.700 x 20.152 mm pad count 24 total thickness 2.0874 mm 0. 0 78 pad pitch 0 .9002 pad width 0 . 6 00 exposed paddle pad size 2.7 x 2.7 note: 1. for details, see package drawing in section 4.3 .
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 5 5 3 block diagram figure 3-1 shows the block diagram of the ATBTLC1000-MR110CA module. figure 3- 1. block diagram btlc1000 ble 4.1 soc matching vddio vbat chip_en lp_gpio ao_gpio_0 antenna 26 mhz from 32.768khz crystal or clock gpio_ms1/ms2
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 6 6 4 pin out information 4.1 pin assignment figure 4-1 shows the module top view and pin numbering. figure 4- 1. atbtlc1000 pin descriptions
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 7 7 4.2 pin description table 4-1 provides details for the module pin assignments and descriptions. table 4- 1. pin description no name type description notes 1 ground power ground pin. connect to pcb ground . 2 lp_gpio_0 i/o used for single wire debug clock debug interface pin. connect to a header or test point. 3 lp_gpio_1 i/o used for single wire debug data debug interface pin. connect to a header or test point 4 lp_gpio_2 i/o general purpose i/o default function is host uart rxd 5 lp_gpio_3 i/o general purpose i/o default function is host uart txd 6 vbat power power supply pin for the on chip power management unit (pmu). connect to a 1.8v C 4.3v power supply. 7 lp_gpio_8 i/o general purpose i/o default function is host uart cts 8 lp_gpio_9 i/o general purpose i/o default function is host uart rts 9 ground power ground pin. connect to pcb ground. 10 lp_gpio_10 i/o general purpose i/o default function is spi_sck 11 lp_gpio_11 i/o general purpose i/o default function is spi_mosi 12 lp_gpio_12 i/o general purpose i/o default function is spi_ssn 13 ground power ground pin. connect to pcb ground. 14 lp_gpio_13 i/o general purpose i/o default function is spi_miso 15 gpio_ms1 i/o mixed signal i/o configurable to be a gpio or adc in- put 16 gpio_ms2 i/o mixed signal i/o configurable to be a gpio or adc in- put 17 chip_en control chip enable. a high level turns on the on chip pmu and enables operation of the device. low disables the device and turns off the pmu. control this pin with a host gpio. if not used, tie to vddio. 18 rtc_clkp positive pin for real time clock crystal connect to a 32.768 khz crystal 19 rtc_clkn negative pin for real time clock crystal connect to a 32.768 khz crystal 20 ao_gpio_0 i/o always on gpio_0. used to wake up the device from sleep. 21 lp_gpio_16 i/o general purpose i/o default function is debug uart rxd 22 vddio power power supply pin for the i/o pins. connect to a 1.62v C 4.3v power supply. i/o supply can be less than or equal to vbat 23 lp_gpio_18 i/o general purpose i/o. default function is debug uart txd 24 ground power ground pin. connect to pcb ground 25 paddle power center ground paddle connect to inner pcb ground plane with an array of vias
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 8 8 4.3 module outline drawing figure 4-2 shows the view of the module and the module dimensions. all dimensions are in mm. figure 4- 2. module dimensions (millimeters) figure 4- 3. customer pcb footprint to p view p5 p1 p2 p3 p4 p6 p 24 p 20 p 23 p 22 p 21 p 19 p7 p8 p9 p 10 p 11 p 12 p 13 p 14 p 15 p 16 p 18 p 17 bottom view side view pcb shield btlc 1000 _ mr 110 ca rev atmel corp. p1 p 24 shield note : this pad must be soldered to gnd. 5.746 0.60 typ 0.70 typ 4.811 2.700 2.700 0.787 0.078 1. 30 2.087 0.078 0.775 3.224 11 . 15 3.425 2.975 0.900 pitch 0.775 0.775 20 .015 12 . 45 12 .700 solder pad footprint to p view note : this pad must be soldered to gnd. 20 .015 .050 typ 1.50 typ 2.700 4.811 5.746 0.900 pitch 2.700 12 .700 5.189
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 9 9 5 electrical specifications 5.1 absolute maximum ratings this section describes the minimum and maximum ratings the module can tolerate. table 5- 1. at btlc1000-mr110ca absolute maximum ratings symbol characteristics min. max. unit vddio i/o supply voltage - 0.3 5.0 v vbat battery supply voltage - 0.3 5.0 v vin (1) digital input voltage - 0.3 vddio v vain (2) analog input voltage - 0.3 1.5 v vesdhbm (3) esd human body model - 1000, - 2000 (see notes below) +1000, +2000 (see notes below) v ta storage temperature - 65 150 c junction temperature 125 c notes: 1. vin corresponds to all the digital pins. 2. vain corresponds to the following analog pins: vddrf_rx, vddams, rfio, rtc_clkn, rtc_clkp , vdd_sxdig, vdd_vco. 3. for vesdhbm, each pin is classified as class 1, or class 2, or both: ? the class 1 pins include all the pins (both analog and digital) ? the class 2 pins include all digital pins only ? vesdhbm is 1kv for class1 pins. vesdhbm is 2kv for class2 pins. 5.2 recommended operating conditions table 5- 2. at btlc1000-mr110ca recommended operating conditions symbol characteristics min. typ. max. unit vddio i/o supply voltage low range 1.62 1.80 4.3 v vbat battery supply voltage 1.8 (1) 3.6 4.3 v operating temperature - 40 85 c note: 1. vbat supply must be greater than or equal to vddio. 5.3 restrictions for the power states when vddio is off (either disconnected or at ground potential), a voltage must not be applied to the device pins. this is because each pin contains an esd diode from the pin to the vddio supply. this diode will turn on when a voltage higher than one diode-drop is supplied to the pin. this, in turn, will try to power up the part through the vddio supply. if a voltage must be applied to the signal pads while the chip is in a low power state, the vddio supply must be on. similarly, to prevent the pin- to -ground diode from turning on, do not apply a voltage that is more than 0.3v below ground to any pin.
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 0 10 5.4 power sequences describes that sequence and parameters for powering up and down the device. 5.4.1 power-up sequence the power-up sequence for atbtlc1000 is shown in figure 5-1 . the timing parameters are provided in table 5- 3 . figure 5- 1. atbtlc1000 power-up sequence table 5- 3. atbtlc1000 power-up sequence timing parameter min. max. unit description notes t bio 0 ms vbat rise to vddio rise vbat and vddio can rise simultaneously or can be tied together. t ioce 0 vddio rise to chip_en rise chip_en must not rise before vddio. chip_en must be driven high or low, not left floating. t scs 10 s chip_en rise to 31.25khz (2mhz/64) oscillator stabilizing vbatt vddio chip_ en t bio t ioce 32 khz rc osc t scs
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 1 11 5.4.2 power-down sequence the power-down sequence for atbtlc1000 is shown in figure 5-2 . the timing parameters are provided in table 5-5 . figure 5- 2. atbtlc1000 power-down sequence table 5- 4. atbtlc1000 power-down sequence timing parameter min. max. unit description notes t ioce 0 ms chip_en fall to vddio fall chip_en must fall before vddio. chip_en must be driven high or low, not left floating t bio 0 vddio fall to vbat fall vbat and vddio can fall simultaneously or can be tied together 5.5 digital i/o pin behavior during power-up sequences table 5-5 describes the digital i/o pin states corresponding to device power modes. table 5- 5. digital i/o pin behavior in the different device states device state vddio chip_en resetn output driver input driver pull - up/down resistor (96k ? ) power_down: core supply off high low low disabled (hi - z) disabled disabled power - on reset: core supply on high high low disabled (hi - z) disabled enabled power - on default: core sup- ply on, device out of reset but not programmed yet high high high disabled (hi - z) enabled enabled power - on default: core sup- ply on, device out of reset but not programmed yet high high high programmed by firmware for each pin: ena- bled or disabled opposite of output driver state programmed by firmware for each pin: ena- bled or disabled t ioce 32 khz rc osc chip_ en t bio vbatt vddio
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 2 12 5.6 rtc pins module pins 18 and 19 (rtc_clkp and rtc_clkn, respectively) are used for a 32.768khz crystal. to be compliant with the ble specifications for connection events, the frequency accuracy of this clock has to be within 500ppm. because of the low drift of the 32.768khz crystal oscillator clock and the fact that it can be accurately calibrated (25ppm), the power consumption of the atbtlc1000 can be minimized by leaving radio circuits in low power sleep mode for as long as possible until they need to wake up for the next connection timed event. the block diagram in figure 5-3 (a) shows how the internal low-frequency crystal oscillator (xo) is connected to the external crystal. typically, the crystal should be chosen to have a load capacitance of 7pf to minimize the oscillator current. alternatively, if an external 32.768khz clock is available, it can be used to drive the rtc_clkp pin instead of using a crystal. the xo has 6pf internal capacitance on the rtc_clkp pin. to bypass the crystal oscillator an external signal capable of driving 6pf can be applied to the rtc_clk_p terminal as shown in figure 5-3 (b). this signal must be 1.2v maximum. rtc_clk_n must be left unconnected when driving an external source into rtc_clk_p. figure 5- 3. atbtlc1000 connections to low-frequency crystal oscillator (a) crystal oscillator is used (b) crystal oscillator is bypassed table 5- 6. ATBTLC1000-MR110CA 32.768khz external clock specification parameter min. typ. max unit comments oscillation frequency 32.768 khz must be able to drive 6pf load @ desired frequency vinh 0.7 1.2 v high level input voltage vinl 0 0.2 v low level input voltage stability C temperature - 250 +250 ppm ( a ) rtc _ clk _ p rtc _ clk _ n (b) rtc _ clk _ p rtc _ clk _ n external clock
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 3 13 6 characteristics 6.1 device states table 6- 1. ATBTLC1000-MR110CA device states device state chip_en vddio i vbat (typical) i vddio (typical) remarks ble_on_transmit on on 3.0ma 12 a vbat = 3.6v @ 0dbm pout ble_on_receive on on 4. 5 ma 12 a vbat = 3.6v ultra low power on on 1.25a 0. 2 a with 8kb retention memory, ble timer and rtc enabled power_down gnd on <0.05a <0.05a chip enable off 6.2 receiver performance table 6- 2. ATBTLC1000-MR110CA receiver performance parameter min. typ. max. unit frequency 2,402 2,480 mhz sensitivity with on - chip dc/dc 94.5 - 9 3 dbm maximum receive signal level 5 dbm cci 13 db aci (n1) 0 db n+2 blocker (image) - 20 db n - 2 blocker - 3 8 db n+3 blocker (adj. image) - 3 5 db n - 3 blocker - 4 3 db n4 or greater - 45 db intermod (n+3, n+6) - 33 dbm oob (2ghz ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 4 14 6.3 transmitter performance table 6- 3. ATBTLC1000-MR110CA transmitter performance parameter min. typ. max. unit frequency 2,402 2,480 mhz output power range - 20 3.5 dbm minimum output power - 55 in - band spurious (n2) - 40 dbm in - band spurious (n3) - 50 dbm 2nd harmonic pout - 45 dbm frequency dev 250 khz all measurements performed at 3.6v vbat and 25c, with tests following bluetooth v4.1 standard tests.
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 5 15 7 schematic content this chapter provides the schematic data for the atbtlc1000 chip functionality on the atbtlc1000-mr210 module. module design information such as module schematics can be obtained under an nda from atmel. 7.1 application schematic the atbtlc1000- mr 110ca module is fully self-contained. to use the module, just provide vbat and vddio supplies. figure 7-1 shows a typical design using the ATBTLC1000-MR110CA module. the schematic shows several host interfaces: uart with flow control (4-wire) and spi as well as an input to the adc on the gp io_ms2 pin. a user can choose the interface(s) required for their application. if a 32.768khz real time clock is not available in the system, a 32.768khz crystal can be used. figure 7-2 shows a design using a crystal for the real time clock. the crystal should be specified with a load capacitance, cl=7pf and a total frequency error of 200ppm. figure 7- 1. application schematic including 32.768khz crystal 24 23 22 21 20 19 18 17 c1 required only when using a li coin cell battery. place c 1 next to the battery. test points for atmel use tp 1 tp 2 uart_rxd uart_txd uart_cts uart_rts swclk swdio vbat c1 10 uf 4v gnd1 lp _gpio_0 lp _gpio_1 lp _gpio_2 lp _gpio_3 vbat lp _gpio_8 lp _gpio_9 1 2 3 4 5 6 7 8 paddle 25 vddio 32 .768khz u1 btlc1000- mr 110ca module gnd4 lp _gpio_ 18 vddio lp _gpio_ 16 ao _gpio_0 rtc_clkn rtc_cklp chip_ en gnd2 lp _gpio_ 10 lp _gpio_ 11 lp _gpio_ 12 gnd3 lp _gpio_ 13 gpio_ ms 1 gpio_ ms 2 9 10 11 12 13 14 15 16 wake chip_ en adc_ in irqn spi_miso spi_ssn spi_mosi spi_sck y1
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 6 16 figure 7- 2. application schematic without 32.768khz crystal 24 23 22 21 20 19 18 17 c 1 required only when using a li coin cell battery. place c 1 next to the battery. test points for atmel use tp 1 tp 2 uart_rxd uart_txd uart_cts uart_rts swclk swdio vbat c1 10 uf 4v gnd1 lp _gpio_0 lp _gpio_1 lp _gpio_2 lp _gpio_3 vbat lp _gpio_8 lp _gpio_9 1 2 3 4 5 6 7 8 paddle 25 vddio 32 .768khz u1 btlc1000- mr 110ca module gnd4 lp _gpio_ 18 vddio lp _gpio_ 16 ao _gpio_0 rtc_clkn rtc_cklp chip_ en gnd2 lp _gpio_ 10 lp _gpio_ 11 lp _gpio_ 12 gnd3 lp _gpio_ 13 gpio_ ms 1 gpio_ ms 2 9 10 11 12 13 14 15 16 wake chip_ en adc_ in irqn spi_miso spi_ssn spi_mosi spi_sck
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 7 17 8 placement and routing guidelines it is critical to follow the recommendations listed below to achieve the best rf performance: 1. the board should have a solid ground plane. the center ground pad of the device must be soldered to the ground plane by using a 3 x 3 grid of vias (see figure 4-3 ). each ground pin of the ATBTLC1000-MR110CA should have a ground via placed either in the pad or right next to the pad going down to the ground plane. 2. when the module is placed on the customer pcb design, a provision for the antenna must be made. there should be nothing under the portion of the module, which contains the antenna. this means the antenna should not be placed directly on top of the customer pcb as shown in figure 8-1 (a). this can be accomplished by, for example, placing the module at the edge of the board such that the module edge with the antenna extends beyond the customer pcb edge by 6.5m m as shown in figure 8-1 (b). alternatively, a cutout in the customer pcb can be provided under the antenna. the cutout should be at least 22mm x 6.5mm (see figure 8-1 (c) and figure 8-2 ) . if the cutout method is used, the ATBTLC1000-MR110CA should be centered in the cutout. the ATBTLC1000-MR110CA must have ground vias spaced 2.5mm apart that should be placed all around the perimeter of the cutout. no large components should be placed near the antenna. 3. keep away from antenna, as far as possible, large metal objects to avoid electromagnetic field blocking 4. do not enclose the antenna within a metal shield 5. keep any components that may radiate noise or signals within the 2.4ghz C 2.5ghz frequency band far away from the antenna or better yet, shield the components that are generating the noise. any noise radiated from the customer pcb in this frequency band will degrade the sensitivity of the atbtlc1000- mr110ca module. figure 8- 1. ATBTLC1000-MR110CA placement reference (a ) ( b ) ( c ) poor case best case acceptable case worst case system ground plane atmel atmel atmel atmel
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 8 18 figure 8- 2. no pcb/gnd cut out area 8.2 power and ground dedicate one layer as a ground plane. make sure that this ground plane does not get broken up by routes. power can route on all layers except the ground layer. power supply routes should be heavy copper fill planes to ensure the lowest possible inductance. the power pins of the module should have a via directly to the power plane as close to the pin as possible. decoupling capacitors should have a via right next to the capacitor pin and this via should go directly down to the power plane C that is to say, the capacitor should not route to the power plane through a long trace. the ground side of the decoupling capacitor should have a via right next to the pad which goes directly down to the ground plane. each decoupling capacitor should have its own via directly to the ground plane and directly to the power plane right next to the pad. the decoupling capacitors should be placed as close to the pin that it is filtering as possible. atmel no pcb area cut out 6 . 5 mm 22 mm atbtlc 1000 module
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 1 9 19 9 interferers one of the biggest problems with rf receivers is poor performance due to interferers on the board radiating noise into the antenna or coupling into the rf traces going to input lna. care must be taken to make sure that there is no noisy circuitry placed anywhere near the antenna or the rf traces. all noise generating circuits should also be shielded so they do not radiate noise that is picked up by the antenna. also, make sure that no traces route underneath the rf portion of the atbtlc10000-mr110 ca . also, make sure that no traces route underneath any of the rf traces from the antenna to the atbtlc1000-mr110 ca input. this applies to all layers. even if there is a ground plane on a layer between the rf route and another signal, the ground return current will flow on the ground plane and couple into the rf traces.
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 2 0 20 10 reference documentation and support 10.1 reference documents atmel offers a set of collateral documentation to ease integration and device ramp. the following list of documents available on atmel web or integrated into development tools. title content datasheet this document atbtlc1000 soc datasheet data sheet for the atbtlc1000 soc contained on this module. atbtlc1000 blusdk: hardware design guidelines atbltc1000 hardware design guide with references for placement and routing, external rtc, re- strictions on power states, type of information . atbtlc1000 blusdk release package this package contains the software development kit and all the necessary documentation includ- ing getting started guides for interacting with different hardware devices, device drivers , and api call references.
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 2 1 21 11 certifications 11.1 agency compliance the ATBTLC1000-MR110CA has been tested and certified to meet the compliance for the following agencies: ? bluetooth 4.1 C qd id controller (see declaration d028678 ) C qd id host (see declaration d028679 ) ? fcc C fcc id: 2adhkbtlc1000 ? cfr47 part 15 ? etsi C en 300 328 C en 300 400 class 2 ? arib C std-t66 ? telec
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 2 2 22 12 reflow profile information this chapter provides guidelines for reflow processes in getting the atmel module soldered to the customers design. 12.1 storage condition 12.1.1 moisture barrier bag before opened a moisture barrier bag must be stored in a temperature of less than 30c with humidity under 85% rh. the calculated shelf life for the dry-packed product shall be 12 months from the date the bag is sealed. 12.1.2 moisture barrier bag open humidity indicator cards must be blue, <30%. 12.2 stencil design the recommended stencil is laser-cut, stainless-steel type with a thickness of 100m to 130m, and approximately a 1:1 ratio of stencil opening to pad dimension. to improve paste release, a positive taper with bottom opening 25m larger than the top can be utilized. local manufacturing experience may find other combinations of stencil thickness and aperture size to get good results. 12.3 baking conditions this module is rated at msl level 3. after the sealed bag is opened, no baking is required within 168 hours so long as the devices are held at 30c/60% rh or stored at <10% rh. the module will require baking before mounting if: ? the sealed bag has been open for >168 hours ? humidity indicator card reads >10% ? sips need to be baked for 8 hours at 125c 12.4 soldering and reflow condition 12.4.1 reflow oven it is strongly recommended that a reflow oven equipped with more heating zones and nitrogen atmosphere be used for lead-free assembly. nitrogen atmosphere has shown to improve the wet-ability and reduce temperature gradient across the board. it can also enhance the appearance of the solder joints by reducing the effects of oxidation. the following bullet items should also be observed in the reflow process: ? some recommended pastes include nc-smq ? 230 flux and indalloy ? 241 solder paste made up of 95.5 sn/3.8 ag/0.7 cu or senju n705-grn3360- k2 -v type 3, no clean paste. ? allowable reflow soldering times: three times based on the following reflow soldering profile (see figure 12- 1 ). ? temperature profile: reflow soldering shall be done according to the following temperature profile (see figure 12-1 ). ? peak temp: 250c.
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 2 3 23 figure 12- 1. solder reflow profile 12.5 module assembly considerations the ATBTLC1000-MR110CA modules are assembled with an emi shield to ensure compliance with emi emission and immunity rules. the emi shield is made of a tin-plated steel (spte) and is not hermetically sealed. solutions like ipa and similar solvents can be used to clean the atbtlc 1000 -mr110ca module. however, cleaning solutions, which contain acid, should never be used on the module. the atmel/microchip ATBTLC1000-MR110CA modules are manufactured without any conformal coating applied it is the customers responsibility if a conformal coating is specified and or applied to the ATBTLC1000-MR110CA module. 25 o c slope : 1~2 o c/sec max. (217 o c to peak) (peak : 250 o c) ramp down rate : max . 2.5 o c/sec. time (sec) 40 ~ 70 sec . 60 ~ 120 sec. ramp up rate : max . 2.5 o c/sec. preheat:150 ~ 200 o c 217 o c
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 2 4 24 13 errata issue: the measured current for the device state cases listed in table 6-1 will be higher than what is reported in the table. this is because the power number values in the sdk4.0 release have not been fully optimized to their final values. a small sample measurement has been performed on 10 samples and they show the following results: measurement condition: ? 1-sec adverting interval ? 37 byte advertising payload ? connectable beacon ? advertising on three channels (37, 38, and 39) ? vbat and vddio are set to 3.3v sam l21 has a measurement floor of 80na which was compensated in the reported numbers (this number varies from board to board and needs to be compensated). the average advertising current: 11.3a the average sleep current between beacons: 1.17a the average current for the 10 boards was (including 80na floor): sample # 1 2 3 4 5 6 7 8 9 10 average current (a) 11.55 11.45 11.45 11.7 11.4 11.25 10.95 11.2 11.6 11.4 �� workaround: will be resolved in an sdk update. for a complete listing of development support tools and documentation, visit http://www.atmel.com/ or contact the nearest atmel field representative.
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 2 5 25 14 revision history doc rev. date comments 42514e 8/2016 1. corrected module pad width in table 2 - 1 . 2. revised note 2 vain in absolute max power ratings in table 5 - 1 . 3. updated rtc pictures in figure 5 - 3 . 4. r eplaced khz with khz. 5. added placement and cutout drawings in 0 , and figure 8 - 1 . 6. u pdated current values in table 5 - 2 . 7. revised module pod and footprint in figure 4 - 2 and figure 4 - 3 . 8. revised vddio max voltage in table 5 - 1 . 9. revised receive current in table 6 - 1 . 10. added tolerance to freq dev in table 6 - 3 . 11. revised receive performance numbers in table 6 - 2 . 12. added section 12.5 for module assembly considerations. 13. minor edits. 42514d 03/2 01 6 1. corrected package table ground pad size in table 2 - 1 . 2. updated module drawing in figure 4 - 2 . 3. corrected errata to refer to table 6 - 1 . 4. revised reflow recurrence in section 13 . 42514c 12/2015 1. updated performance numbers. 2. added uart flow control. 3. added clearer diagrams. 4. added agency certification section. 5. corrected package size value in order information chapter table 1 - 1 . 6. updated module drawing figure in section 4. 3 . 7. revised schematic content chapter 7 . 8. ad ded reflow profile chapter 12 . 9. added errata chapter 13 . 42514b 07/2015 updated for b0 silicon 42514a 04/2015 initial release
ATBTLC1000-MR110CA [datasheet] atmel- 42514 e-ATBTLC1000-MR110CA-ble-module_datasheet_08/2016 2 6 26 atmel corporation 1600 technology drive, san jose, ca 95110 usa t: (+1)(408) 441.0311 f: (+1)(408) 436.4200 www.atmel.com ? 2016 atmel corporation. / rev.: atmel - 42514 e - atbtlc1000 - mr110ca - ble - module_datasheet_0 8 / 2016 . atmel ? , atmel logo and combinations thereof, enabling unlimited possibilities ? , and others are registered trademarks or trademarks of atmel co rporation in u.s. and other countries. arm ? , arm connected ? logo, cortex ? , and others are the registered trademarks or trademarks of arm ltd. other terms and product na mes may be trademarks of others. disclaimer: the information in this document is provid ed in connection with atmel products. no license, express or implied, by estoppel or otherwise, to any intellectual property right is granted by this document or in connection with the sale of atmel products. except as set forth in the atmel terms and cond itions of sales located on the atmel website, atmel assumes no liability whatsoever and disclaims any express, implied or statutory warranty relating to its products including, but not limited to, the implied warranty of merchantability, fitness for a part icular purpose, or non - infringement. in no event shall atmel be liable for any direct, indirect, consequential, punitive, special or incidental damages (including, without li mitation, damages for loss and profits, business interruption, or loss of informat ion) arising out of the use or inability to use this document, even if atmel has been advised of the possibility of such damages. atmel makes no representations or warranties with respect to the accurac y or completeness of the contents of this document and reserves the right to make changes to specifications and products descriptions at any time without notice. atmel does not mak e any commitment to update the information contained herein. unless specifically provided otherwise, atmel products are not suitab le for, and shall not be used in, automotive applications. atmel products are not intended, authorized, or warranted for use as components in applications intended to support or sustain life. safety - critical, military, and automotive applications disclaim er: atmel products are not designed for and will not be used in connection with any applications where the failure of such products would reasonably be expected to result in significant personal injury or death (safety - critical applications) without an a tmel officer's specific written consent. safety - critical applications include, without limitation, life support devices and systems, equipment or systems for the operation o f nuclear facilities and weapons systems. atmel products are not designed nor inten ded for use in military or aerospace applications or environments unless specifically designated by atmel as military - grade. atmel products are not designed nor intended for use in automotive applications unless specifically designated by atmel as automoti ve - grade.
|
