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PRO 1000 SERVICE MANUAL - Frank`s Hospital Workshop

1. 42V 32V Nx f 12V IN SHT 7 U5 Hen Jee MIC2950 068Z 220uF T 220uF 50V 50V i e gt A a 3 e e 1 vout 7 wm e e e e e gt voc op D16 SHT 1 SHT 4 GND A C28 SS Ve e e e e Ee 2 100nF D21 L C96 uF R103 R99 R102 Baum 100nF Ud L L 100K 47K5 gt 100K Jr em BAV7O _ coo KS Lose e LT1339 AF bett a R44 RR dur 35V 16V Q21 2k67 L cao LU syne vaoosri20 L PHP21NO6T i Q2 ere m IRF5305S IRF5305S me e Li L1 R111 Da ala H e s e e e e by xg e e gt vm 4 A TS 18 e 149uH 0R033 PBYR1045 A SHT 3 4 9 mm ERR Do T L e 5 wo Bg S RB160L 40 _ 6 TF ATOUF R18 C85 SW V BATTERY SWITCI et 8 les Q20 Seid LJ HE PGND e PHP21NOST pH A dev Ilve pHase 4 e sam SIS 3 M l C18 d mit gt 3K32 C31 R51 VFB Q11 e 10 VREF SENSE 12 D14 N J DTC1432KA Ve X RB160L40 BATLOFFL 09 2VP3306F DTCMSZKA o d SHT 4 cra e L C55 100nF ai LI R104 100nF e L R50 R101 100K x VR
2. VDD C im VDD L18 BLM31B601S R56 R191 R2 ud 10K R37 RCALANN 3 2 10K DANN L17 Y BLM31B601S ote kwi PUR va Em aA anm A 7 TLC3704CD e t Z gt 200 100MHZ 100K Ke gt SNSRDETL 078 C79 R102 es 200R 100nF 100nF vy e R101 R72 ped 25 2K0 10K5 VLED SP BLM31B601S T 100nF c91 AN d SC gt Ki eun Ad gt 220F e Sat 44 42 M 58 57 FLA R281 Ge WE me LED RCAL Em Ron L19 on 56 4 1 BLM31B6013 10R i l RCAL RTN DONI w rou neo 193 E im SPO2 m Z gt 200 100MHZ SC po R280 S Ce 33K2 ee m CONNECTOR DET ANODE ALCSW wi R32 INR SHELD non ne N an meor 45 ERROR L DET CATHODE cit Ae 200R L15 R288 BLM31B601S R23 39nF Hz wem HSI Z 200 100MHZ e 249K unn t ZEROTEST A L14 100R a cli 1 R268 5 BLM31B601S zem H PS r cT Cen WRES i T ra mea ae 15K8 R269 e n e L13 rtour 9 TANT 1 AA BLM31B601S M 15K8 Z 1 cm V B y es 820pF Ai xz 100R 249k payen gt c75 R35 Gg mer L LOWSIGL an 7 R130 R129 am souse mo Wor NS rai DR os in e D m 14 T En ER m e z
3. a Se 12VA VBAT u54 u56 URT MNA R91 CIR BE D JS LM78L12 LM78LO5 s T AD822 e 202 100nF gt 470nF 25V 8 8 R407 En voir e VN voli e H C27 R6 C144 C231 10 A LA SS H c208 L c26 Su Reo 3K3 ATnF 100nF d tee ATUF 100nF s Is I NIS e 35V ul R274 0 1 en ld k to 30K n 10R e Um i 12VA R408 im R156 R18 HCH d C15 100K v e C116 10K 750R 3 CRI 100nF l g 0 1 L wa Be e tue DL 3 16V Y Y Y u55 4 DG48 e use ze 36 ma at o ple sl AD822 BAT54S 5 B MPX2050 TH REF 5 sp i Lan S po 28 DIS PT2 6 6 510R 2 25 DIA A s3 d AIN D1 vs wa 100nF PT2_REF tig Co 3 VREF pz 24 D13 2 U47 12 d 4 U29 23 D12 MI e R3 AD620 PH H gt oe LTC1604 s D11 VOUT al og S6 vA D R61 eno H e 549R 4 REE Li EE a t ctz4 Jon 38 SHON ps 2 D door Am lee ea 9 Le ATUF T 100nF Ba pe 22 di ORO He 5VD di 16v CONV_STIL 3 conv p7 US D8 N L e oooo 5VD Uu RD RESL 30 gp pe 118 DI x C31 E Dim 4 mE les pe 117 D e 15 16 D5 la M U61 5VD DIO lt b 10 SSA 2 C118 31 nm 15 Da ive an R389 n on 12VA va 2 A A30 13 LI bd pew pi2 H4 pi
4. 49K9 L em R89 C194 T 220pF 49K9 yppA 10nF R11 C90 Ers 110K C193 VUE E 10nF U26 R271 R291 TLC2262CD IDMGOUT e e e R329 uz 158K 162K 1 6 TLC2262CD Un a gies dl A 100K 7 T ILC3704CD SIL 13 IRSD R328 10 Ne 100K R336 NE 100K 2VSVREF C e 2V5VREF_ e R87 REDFB 49K9 Let R88 C192 T 220pF Nu S Anna ae C89 Ca ve Mm 110K i cas LI u25 100nF 40nF R272 R290 A TLC2262CD ER RDMGOUT e N R334 U25 N 158K 162K 1 Ys TLC2262CD U21 3 Tak 3 5 TLC3704CD L C184 f Y T 100nF B L 2 REDSD _ 4 R333 2 R335 E 100K Ne Ioe a gt e 2V5VREF e AVERE VDD VDDA C82 ou R51 ui NI 150K MAX4053A 100n 100nF 05 Al veo tE gt U27 Ne 2 710226200 ua ze M s m 1 yu els TLC2262CD 5j Y ag 2 e 3li 4 100K 7 3VBIVREF e HE 53K6 0 1 M e cell 0 5 oh vs re 6 Red 100K 0 1 2V5VREF 49K9 R266 20K e L gt R86 DARKER 49K9 C189 C190 A W ka pl Di xoxo ooa ni C83 C87 I v Ln 100nF u31 a HC175 E E E 100nF LZ gt S 8 E 026 4 40 il o R270 R289 TLC2262CD DARK e e 8 R330 u28 nos TO 158K 162K 1 Ds 11
5. L4 D7 ane l e p e o e gt ANA SHT 2 33uH RBO51L 40 SHT 4 AN A C36 uto 100nF ES LMB40 12 R20 127K AUX 12V U8 Q7 MAX668 lo to PHT6NOGLT ANAS e VIN VOUT e gt wm i vcc SHDN R2 R119 HA SiO L c67 wo ExT ES E c68 C38 Gio T 330uF 49R9 49R9 330uf 100nF 25V 2 25V JL C47 L C35 FS1 ma e e o T 220nF T 100nF n O e G OAS A 4 per SHT 5 Ser R31 R65 16V 5 Fg penp Z 0R047 12K1 0 25W GND L 3 e 4 Re L C80 C37 C69 MESA An 100nF 330UF 25V c4 2n2 e e e e e e e e e R15 R70 1K21 13K EE u19 ANA LM2594 FB D4 uU CM kl e e Tavin out e AA e e f RB160L 40 RM 100nF ON OFF GND L C9 C33 5 8 100uF 100nF 50V 4 DR Den A D6 R80 RB160L 40 T 100uF RB160L 40 25V A7K5 R81 47K5 e t e e e e e Sit VRAWI e u21 T pt e 1M824A e e e e bo e eo e e e C swe L 12uH PBYR745B SHT 4 ZA 12V PRINTER SUPPLY M L L c32 100nF it cro 100nF 330uF R7 25V R118 210K u9 Q5 MAX668 w 49R9 PHT11NOGLT e e e e e vec SHDN R23 4 8 E c63 T c64 T c65 E EXT k E ces Den C39 ms a L om ma oMa 330uF 330uF 330uF 49R9 880uF 33
6. VOUT MAX6002 i GN OUTECG 5 p ancora paco L r nacece OUT RESP C PAMDCAM2EX pact 0 gt pac RESP BL RESP 5 P2 ADC2 ERA Do Hwa PO O ADO ES PSDI Mid EL ES Elan Sache PSDI E 15 pr sance POS ADS H e e oo A nens DE R86 lt R87 R88 4 R89 lt R90 lt R91 3 C11 Pos aDs L L 25K5 lt 25K5 lt 25K5 25K5 25K5 25K5 ver Vas 1 CREF Po7iap7 2 DE 37 P5AI 100N 8 VREF P2 0 A08 A16 1 28 gt Lon P5AI PSA reser d P2 1 A09 A17 4 C LS PS MAX810 P22 A10 At8 22 A gt BLANK ECG MAX323 8 OPA4340 ev P23 AN A19 L L NE 7 Sagan 1 6 c_no 5 1 15 RESET posiatsian 3 3 N 2 gt P26 A4A22 e T AG nu Vas X P27 A15 A23 LZ U3 4 U24 P3ORXD F DFROMHOST e e 32 am ramp Cl gt DO HOST go Vac 33 18 11 0592MHZ XTAL2 P32 INTO li ourpoo 063 L C64 P3 3 INT1MISO L Vac T 33P0 T 33P0 P34 T0 ES P3SITII CONVST L Vac Va 5 AVDD Damp L2 r RS Spare Parts b ep 20 Dvppt P37 RD B RLS20 SR 4 po SCLOCK ES e e e DVDD3 SDATAMOSI E pep fono fono Tio C28 nde 7 o J2 DGNDI EA 10N0 Lar UI PSEN 14 RIOZ FLASHER 1 AG Pa ie v 47 DGND3 AE HZ 1K00 AG Vac PID_NUM WMT 102 01 T SH PSDI Keep this trace short Map C58 PSDI P5DI i 4HC393 P5DI AA G 74
7. A AZ IRA RotorKnob 733152 gt Sca N D S i A HU de x S SEL T E Eig p i aR ER 5e ia CUM DN tu zj d l K e ou L Rotor Assy 705112 a SS Keyboard PWA 315594 e Main Board 315592 ECG Backplane ECG Cable N Assembly 316680 Assembly Drawing Front Case 2 of 2 Bumper Polyurethane 732175 Keyboard PWA 315594 Pneumatic Tubing NIBP 740185 page 5 3 4 External DC Cable Assembly 316694 Note The Circuit Boards depicted within this drawing are shown as unpopulated Rear Case 705116 PSU Board 315593 Pneumatic Assembly 320744 PSU Module 320757 NiMH Battery 633177 T replaced as a whole For NiMh battery removal replacement The battery retention screws are recessed between the cells on the rear case Assembly Drawing Rear Case 1 of 2 page 5 5 6 Fan DC 680452 QU DB9 Serial Connector DB15 Host Rear Case 705116 Comms Connector
8. 3V3D 3V3D mm 2 R171 R170 P 2K21 2K21 mm i sw3 D 6 4 com CHA DO EBEN eB CO 4 3 cus Do not populate SW4 3V30P 3V3D Do not populate SW3 swa A B f Lo Ade ki o e e e e e o e 5N Ak ROTOR R172 R169 R159 R160 R163 R161 R168 R167 R166 R165 R47 R48 R164 i 10K 10K 10K 10K 10K 10K 10K 10K 10K 10K 49K9 49K9 10K D9 gt ROTOR swi B BAS16 AI e e 5N 8 ROTORIL BLUE Probe Switch Upper e gt TEMP O sw2 A B p e e 9 TEMP R 4 doc A B RED Probe Switch Lower e gt SWA n gt ap Switches are open when Probes are in the holders gw TD sw Ski gt 1 e POWERILI 5 2 275 C sw 5 4 gt 5 e LO SWF 5 6 2 7 gt SWG Ta e gt sw 5 10 gt Hi EXT POWER LED gt 12 gt 13 BATT_LED 5 14 POWER YELLOW U62 SWITCH amp LED PCB 37154 om co CONNECTOR gt E POWER GREEN kon ABT374 2 BSO gt 17 STANDBY YELLOW 100nF 5 18 STANDBY_GREEN ap OE 5 19 TREND YELLOW U65 LK 520 TREND GREEN R109 PIA 1D 5 21 STAT YELLOW 20 2D a R111 330R 130 3D gt 23 STAT_GREEN 121R R110 S 40 4D 3 24 SILENCE YELLOW 5Q 5D 5 25 SILENCE_RED N 330R 560 6D S126 FREEZE YELLOW IAR R114 70 7D gt 27 FREEZE_GREEN 8Q 8D gt 28 NIPB_YELLOW R113 330R 29 121R 5VD 2 m T vie ca ABT374 gt 31 MAIN_YELLOW pum 45 20 DE 32 MAIN GREEN E CLK 3 33 RECORD YELLOW R112 5 e U
9. 3V3D R297 2K0 AN CTH gt TEMP DATA Se ISOLATION BARRIER 5VIT 5VIT ke so R182 R178 BLM31B601S m i SA FLT e 2 E Temp probe 2 grann L5 Jm BLM31B601S law NA la lt BLM31B601S PA PY is gt nt 126 Z gt 200 100MHZ BLM31B6015 S 028 DTC143ZKA 8 OVITA m n a BLM31B601S DTC143ZKA us 1318604 d OVITA Se 8 T fa 1uF duF nen u VREF BLM31B601S T Ri G l lt 2 gt 200 100MAZ Lio R17 BLM31B601S Temp Probe 1 4K32 R3 mar an EI 22K1 22K1 5VIT 0 1 01 WT C54 1 r OVITA Om 100nF DEI U38 2K74 HEF4051B 16 OVITA 2454 e 11 AD VDD Si B 4 n S R318 fa qa a 5VIT 3K09 1 i E p cso i hb n o i d u43 100nF am 9 PICIC622A20 14 an n l X L 196608MH2 A A C205 l R62 CLKIN T j 151 ekout ra lie H 15pF ORO Pes ola gt E ATA OVIT 3 TocKI RM LZ R45 5K76 MA 6 on om T dh RB1 K Re2 pe OVIT rea iP rea HO res HI reg H2 5VIT m i Se 5VIT W 5VIT R50 ie 100nF 100nF ovr x ADE OVITA La OVITA R180 e AR u60 Rie 3 AD822 MAXI A 7K87 t R181 DO Te TA e 7 cs pi R296 2 100nF C53 A seu x OVITA 100nF an VITA n E mer 68Kt OVITA OVITA 5VIT R200 VREF 150R Ld e e e u32 R197 c51 cu Taan 2K7 100nF ba R316 1 16V 4K99 A 8 Ban oviTA oviTA oo 2 ti R177 A P R179 Jee N Se vit VTA OVITA pa E ay OVIT
10. AC Cable Assembly 316698 External DC Cable Assembly 316694 Bumper 732175 umper 732175 Battery Fuse Holder Antenna Blanking Plugs 705119 Host Comms Cover 705117 Phillips Screw 2 705132 1 WAN BN Bumper 732175 a e Indicates a screw removal point Note 1 This particular screw is longer than all of the other screws It is critical to return this screw to the same slot placement elsewhere can potentially cause damage to the front of the Monitor requiring case replacement M x M Assembly Drawing Rear Case 2 of 2 Host Comms Cover removed page 5 7 8 PSAI me oeo R71 ELA R29 R30 R31 100K 100M 100M 100M R72 e E RA 100K R73 T e gt EL PSAI 100K C27 C4 C5 C6 o 100N 100N 100N PL1 100N R51 R77 4 Vac VREF oo e e e de SM HD 499R 330K 1 A e i ES A CG5 90L T 4 54 PSA R47 li E a Lcis 200K
11. DEI HCT174 ok Daach HCT32 KEN k T 22 owp ora Di De MPX2050 CS DS a tap ae e 28 oan pia UZ D GND 8 e D14 4 8016 PU 3 e 8 n pis H Do 3 A29 10 nee vs gd t Du s so 2 L C16 1y TE g vour H dap 40 UR l de ie m m 100n lt gt 1 CH 34 VOUT 5D sa pi TVA 3 WZ 4 Ble ac ei A24 2 mum U30 Y U33 C24 GND aR HCT32 Dia EH C206 LM79L12 H C207 LM79L05 ie FF Y 100nF a U61 35V vini vini e A 3 ving 3 vinz 4 ee 5 5 ving VOLT 6 vna vou HCT32 7 7 D 12VA RER ANA SEL ANA l C160 VINA d VINA ds 16V NA 9 3 Y L T 3300F gt ADC BUSYL C35 12VA 5 5 R l 5VD u62 21K C211 1 5 Y Y 0 1 asi 2 S ei 1000F HCTS2 Sul pen n D 31 0 R19 750R E A 31 6 Y USI HCT259 A30 Sch wa eios DI e LD mom PUMPC e 4 Bip D ali gt DEFLATE 1K0 m S 6 PNEUCSI vis ale gt bUPH AA HCT32 oi gt PUMP ON T 100nF ul Uso ap E DEFIBENI A28 ig os UR gt ECGEN A27 3 4 ADC_NAPIL 7 5VD ti sa 12 ADULTIL la n p ee TH REF 5VD RESET NIBPCS L RI 10R t 12VA l gra UNFIL_OVPSVIL gt UNFIL OVPIL ANAt Ut7 ch 5VD e REFO s AE 1000F S Y R105 TRM u59 D5 27K4 S S AD822 v s ni a VN vom R73 1 5 AD822 110 R158 GND e Fs R421 BAS16 Tk L 2 10k 7 3 l c20 4 0 1 e bi R305 R157 100nF 8 1K0 e RI6 y 2 330k 10K gt d FLT OVP L RS Ww gt A 30K LF C130 KR TIVE fi A Gaz H HM 16V ADULT OP Adjust Ge Be c EI 10K 0 1 RISO vai SEO OP Adjust Y 41K2 4
12. Turn and press the rotor to select inflate on The pump should begin to inflate the system Watch the pressure indication increase on the manometer and observe that the pump is shut down and the pressure is released when the manometer indicates in the range of 150 to 165 mmHg Observe that the menu displays Service Error None If the overpressure test results in an out of tolerance condition contact Critikon Technical Support at 877 274 8456 for assistance 4 7 3 ECG Tests Connect the ECG leads to the ECG trunk cable prior to connection to the monitor The simplest way to function test the ECG circuitry is through the usage of an ECG simulator with the monitor in normal monitoring mode 1 2 Set your simulator to normal heart rate Set the simulators ECG amplitude to 1 5 mV BPM to 80 Set respirations to 20 RPM delta ohms to 1 0 Remove and reattach leads ll and IIl sequentially and verify that LEAD OFF is displayed in the main window 4 7 4 TEMP Tests 1 Disconnect the all sensor cables from the Alaris temperature connections 2 From the Service Menu Turn and press the rotor to select the TEMP service parameter The TEMP service menu should appear as shown below go to service menu q l Sequence Number 105 top warmer on top warmer off bottom warmer on bottom warmer off BLUE Probe IN Resistance Ohms 1315
13. OVP setpoint not found Pump stuck on during idle Valve in illegal state Pressure too high for too long 4 6 3 3 Temperature Messages Fail Code Temp data line out of sync with clock Temp date frames out of sync 4 6 3 4 SpO2 Messages In operate mode the Fail Code is reported as described in section 4 6 3 In service mode the Service Mode Code hex is displayed on the screen as a Parameter Fatal Error hex Fail Code Too many reset requests Nellcor has posted a serious FE error Nellcor FE requests power cycle Nellcor over current error FE data OK processing stalled 4 7 SERVICE MODE OPERATION The Monitor service mode exercises the built in diagnostic features of the Monitor and the installed parameters Access the service mode from a cold start by proceeding as follows 1 Momentarily press the on off button at the front of the Monitor Observe that a beep sounds and that the power up screen displays 2 Press the Rotor to answer no to the admit patient prompt rotate the Rotor and observe the main menu is displayed on the left side of the screen 3 Rotate the Rotor to select other system settings 4 16 Select go to service mode Rotate and press the knob again to answer yes at the prompt Note that the menu changes to what is shown below ABCDEFGHIJKLMNOPQRSTUVWXY XZ DONE DONE CANCEL Please enter the Service Mode password CANCEL SPACE SPACE BKSPACE BKSPACE 4 Observe that a ro
14. Pass Fail N A SpO Tests 4 7 1 Verify Pleth waveform 4 7 1 SpO reading at 100 Saturation 96 4 7 1 SpO reading at 90 Saturation 86 100 94 Internal Tests Perform in Service Mode 4 7 2 1 Leakage Test 4 7 2 2 UUT Pressure 50 mmHg 46 54 4 7 2 2 UUT Pressure 150 mmHg 145 155 4 7 2 2 UUT Pressure 250 mmHg 244 255 4 7 2 4 Verify adult overpressure occurs between 300 350 mmHg 4 7 2 4 Verify neo overpressure occurs between 150 165 mmHg 4 7 4 Verify top probe IN OUT 4 7 4 Verify top probe warmer ON 4 7 4 Verify top probe warmer OFF 4 7 4 Verify bottom probe IN OUT 4 7 4 Verify bottom probe warmer ON 4 7 4 Verify bottom probe warmer OFF 4 7 5 Recorder Test 4 7 8 Keypad Test 4 7 10 Speaker Test ECG Tests Perform in Monitor Mode 4 7 3 Verify Waveform 4 7 3 Verify BPM 80 BPM 76 7 4 7 3 Verify Paced Signal 4 7 3 Verify Lead Off RESP Tests Perform in Monitor Mode Verify Waveform Verify RESP 20 RPM 23 8 Verify RESP 5 RPM 2 Verify alarm sounds amp displays below 6 RPM BPM Tests Perform in Monitor Mode V
15. S p R337 e ma Sio 7 T mE 100R R338 R339 100R B UM HCT244 E e LCD RA J a mU 1 R340 m LCD R3 B a2 v 200 LCDR 15 43 vi R341 e m LCD_R1 T 3 Sak M w 100R R342 u wm 15 wm 19 R343 100R 16 U45 uca 100R 17 R344 mum LCD G4 D v HE 18 em LCD_G2 Ue v UR R345 100R e em LCD G3 43 L 20 em LcD_64 EI na va H2 100R R346 e A z 2 wm 1 GNDAO e R347 100R 23 W45 HCT244 BAH S umm 100R R348 LCD BA ufa mE 25 em LCD B3 13 a2 n 100R e 26 emm LCD B2 Dia v ENAB em LCD Bi Da up e mm 29 mm 5VD e C60 rem JH 100nF 5VD gt FALSAFEIH R66 NAN e Li R425 e R424 NF PE R65 enw ORO PL9 mi DANA m mu o e gt me PLI POWER i VRAW 1 CONNECTOR T i mm mm mm o gt ANA Mi 1 mm VRAWI Car 4 Lem mm e gt oe e gt b L muti o R433 20K LCD BRIGHTNESS gt C221 C151 C148 Cen l c197 D c196 C147 Q31 10nF 10nF 10nF 10nF ATUF ATUF 10nF 3V3D DTC143ZKA 16V 16V b d ce Q36 LCD_BACKLIGHTILI DTA143XKA E Ja DTC143ZKA R436 10K Schematic Main Board P N 315592 9 of 12 Page 5 35 36
16. E caso SlerR cND boom uF 35V T ken L e DTC143ZKA is a digital transistor with a 4K7 base resistor and a 47K base pull down resistor U19 REM AL REQIH 10 gt gt REMOTE_ALARML HG02 U19 A e LL FALSAFEM HG02 R409 FS_ARMED H 1 R399 U19 10K e 1 m FALSAFEL 10K HC02 3V3D 14 R398 10K u79 u79 u79 R403 ARM FS L i 2 e 4 s 7AHCO4 10K 7AHCOS 74HCO4 L C237 T wF U80 16 3 VCC Q14 Di SC u76 angle FALSE O 2 4 10 S Yo 3 oscouT2 Q12 1 13 2 It HCOO sva BAT 14 dg Hcoo A aro 10 oscour ai FAIL PRIU gt R406 u78 08 14 1 6 e d OSCIN a u79 4 De DC R404 amp eu RESET as POWER H s i 100K CLEARFSIL wa a ai 74HC04 C238 7 C T wF u79 RISE 11 10 20K 74HCO4 D23 3 1 lt BAS16 U79 3v3_BAT 14 13 12 m 74HC04 V_FSA R400 1K0 Q27 DTC143ZKA WDI DB E698 Schematic Main Board P N 315592 6 of 12 Page 5 29 30
17. None Oxygen Saturation 0 Heart Rate 0 bpm SPO2 STATUS SENSOR Disconnected SPO2 MESSAGES BATTERY Nellcor Version li Nellcor Objects BE3050 Ver 03 01 02 02 FE101 Ver 01 03 SpO2 Service Menu 3 Insert the Nellcor SRC 2 pocket tester into the Parameter front panel SpO2 sensor socket use the extender cable SCP 10 and press until fully seated in the socket 4 19 4 After a few seconds the two red LEDs should light on the pocket tester The SpO2 service menu should soon display a saturation of 8041 and also displaying the heart rate as set on the SRC 2 pocket tester Cycle through the 3 RATE settings and verify that the monitor responds accordingly 5 Remove the SRC 2 pocket tester from the extender cable and verify that the monitor reports a SENSOR Disconnected message in the STATUS box 4 7 2 NIBP Tests go to service menu abort Service Error None pneumatic reset cal press zero PT1 Pressure mmHg 0 cal press 200 PT1 Zero adu 291 PT2 Pressure mmHg 0 ri V sadiovp PT2 Zero adu 286 save cal info valve open Overpressure Latch Cleared valve close OverCurrent Latch Cleared inflate on Overpressure Selected Adult inflate off OVP Threshold adu 2703 2420 lt 2702 lt 3032 start leak test Leak Test Status Idle adult ovp select Leak Test Results mmHg NA lt 0 lt 6 neo ovp select PT1 ScaleFactor 28672 lt 33183 lt 38796 PT1 Excitation adu 267 lt 286
18. PRO Monitor Operation Manual 776995 DINAMAP PRO Monitor Service Manual 777358 Accessory Pole Basket Base 3215 Printer Paper Box of 10 089100 Power Cable 316579 NELLCOR SpO Extension Cable SCP10 NELLCOR Finger Sensor DS100A NIBP Calibration Kit 320246 PRO Monitor unique parts IVAC is a trademark of ALARIS Medical Systems NELLCOR is a trademark of Mallinckrodt Inc 2 6 SPECIFICATIONS CE This product conforms with the essential requirements of the Medical Device Directive Accessories without the CE Mark are not guaranteed to meet the Essential requirements of the Medical 0 0 8 6 Device Directive The PRO Monitor is protected against vertically falling drops of IPX1 water and conforms to the IEC 529 standard at level of IPX1 No harmful effects will come of vertically falling drops of water making contact with the monitor 2 6 1 Power Requirements MAINS AC INPUT VOLTAGE Protection against electrical shock Class 1 115 230 VAC 50 60 Hz nominal 90 253 VAC 47 63 Hz range ALTERNATE SOURCES DC INPUT VOLTAGE EXTERNAL DC FUSE Protection against electrical shock Class 1 24 VDC nominal 12 30 VDC from supplied power converter Internal auto resetting BATTERY 12 volt 2 3 amp hours Protected by auto resetting fuse Minimum operation time 2 hours 5 minute auto cycle with adult cuff at 25 C 77 F with power save mode
19. Test Record Appendix B Monitor Configuration Log 4 1 4 2 This page intentionally left blank SECTION 4 GENERAL MAINTENANCE 4 1 INTRODUCTION This section contains general Monitor service procedures including alarm code interpretation service mode operation and periodic maintenance and battery care Refer to Section 5 for disassembly and reassembly procedures and related component service information 4 2 Configuring the PRO 1000 Monitor for the First Time 4 2 1 Unpacking and Preparation for Installation Qu OP Se D 8 9 10 11 12 Unpack and identify the contents of all shipping materials Remove the PRO 1000 monitor Unpack the AC cord but do not plug the monitor in at this time Turn the monitor for access to the Host Comms Cover Use a Phillips head screwdriver to remove the single screw that secures the Host Comms cover The Battery fuse and the Fuse Holder are not connected at time of shipment Locate and remove the fuse and fuse holder from the protective plastic bag Identify the Battery Fuse holder located within the Host Comms well near the lower left side Insert the Battery Fuse into the Battery Fuse holder Press the Battery Fuse Holder into the Battery Fuse mount using thumb pressure until it is securely snapped in place Replace the Host Comms cover refasten the Phillips screw Tighten using hand tools only Plug the AC cord into the AC Mains input at the back of the monitor P
20. jpsome esind sH o 0 _ J961esome soon o dd pr ___ _______ouue zejeuoeN zojelped op ejeuosN oumenpeg Unpy unesog Hope owen 21921 Hnejeg eyeuoeu pue oLeipad ynpe Joj owes ay si Bumes ynejep lojoey ay paijioeds jou ji ejeuoou N oujeiped2g INpe y einsseid 19618 eniuj O U ueaW O O A ET A 1 TI Gren ned or o ee Xh J 99 FEN osa 00 uonois s o O A rere C 1 51 o Q 3A OO a GI a Alj wA wx O e O es enen AAA beswen DE I E RER DE E E RER i y Hora O NA n CC o NO ETE SS ce END sDumes peoueApy spul 3SNIPY jeadaJ salas dd uiv jeadaJ sales de PIE jeadaJ salas dd puc jeada seues da 181 sales wojsno dnjas dq oiny dgIN dnjas p99eds dooms DIA paxiy spumos Byuoy 10109 SEIN Pajas jejv sepouoeje eoe dey IE pea HOVLA senuoud wieje Jeujo 1991 kejdsiq 993 epeoseg peeds deems 9eIpieo sbuas peoueApy uonoajep BIWUAYLJY MO Jeoeg ezis WJOJ9ALBM uonoejes pee 993 dnjas ajeuoau pue onmelpad inpe Joj owes ay si Bumes jinejep AIOIOEL au palioeds zou y a euoau N oujeiped2g npe y Da I Tempo uopemies AAA NA emp je peo o 3 4H 3O 9 a J Gulyoeouldde dsay senuou
21. Adult 0 mmHg to 290 mmHg SUPE PRESSURE RANGE Neonate 0 mmHg to 145 mmHg DEFAULT TARGET CUFF Adult 150 15 mmHg INFLATION Neonate 110 15 mmHg Adult 100 to 250 mmHg TARGET CUFF INFLATION 5 mmHg increments ADJUSTMENT RANGE 100 to 140 mmHg Neonate E 5 mmHg increments BLOOD PRESSURE Adult 120 seconds maximum DETERMINATION TIME Neonate 85 seconds maximum Adult 30 200 BPM 3 PULSE RATE RANGE Neonate 30 220 BPM 3 Adult 300 330 mmHg OVERPRESSURE CUT OFF Neonate 150 165 mmHg BLOOD PRESSURE Systolic MAP Diastolic MEASUREMENT RANGES mmHg mmHg mmHg Adult 30 290 20 260 10 220 Neonate 30 140 20 125 10 110 BLOOD PRESSURE ACCURACY Meets AAMI ANSI standard SP 10 AAMI ANSI standard 5 mmHg mean error Intra arterial method 8 mmHg standard deviation PULSE RATE ACCURACY 3 5 percent 2 6 5 Temperature SCALES Celsius Fahrenheit Max 42 2 Celsius 108 0 Fahrenheit RANGE Min 31 6 Celsius 88 9 Fahrenheit 0 2 F when tested in a calibrated liquid MONITOR MODE ACCURACY 0 1 C bath meets ASTM E1112 Table 1 in range specified PREDICTIVE MODE ACCURACY 0 6 C 1 0 F DETERMINATION TIME Less than 60 seconds 2 10 2 6 6 SpO SpO RANGE AND ACCURACY adult neonate 70 to 100 3 5 digits adult neonate 0 to 69 unspecified PULSE RATE RANGE AND ACCURACY 30 BPM 250 BPM 3 BPM SATURATION PITCH Pitch c
22. CLK RESP MOD Vac e Tui 100R 3 en RLS20 Mo sel A C2 R55 R109 030 i V 4K99 3N30 499R AG Place close to T1 pre pe c80 sR106 c79 gt R107 R108 C78 Maintain 0 060 in clearance to ground plane in this area 220P 1M0 T 220P lt 1M00 5 1M00 220P Make GND connections short and fat AG AG AG AG AG AG Maintain 0 060 in clearance to ground plane in this area CRI a RO e e BLRESP 1K00 MMBD914 PSAI C8 OPA4350 ius T 33N0 12 4 C81 lak n a 19 Place close to U23 33P0 e PSA C29 U23 eS AG Mag 1U00 Vac BRA R82 Vas C39 2K67 VREF 100N P5AI OPA4340 Vac C82 40 4 OPA4340 U31 ln IS R36 R26 tap 4 100P Ps e GE 5K90 150K H o E gt OUL RESP A D I s 8 co No 9 20K0 R105 Ei K j U24 2K67 101 IN anpi ae Vas C30 R76 _1C76 191K TO VREF PSAL MAX383 I R28 1U00 Vas R85 499K e a A 33K2 Vas Sa Tata connections n S 8 Vas FT R41 K 10N0 10K0 ES P5AI n Vac DE DAC RESP e RIO 3 S 7 CLK RESP DEMOD 34K0 6 o Tai U24 Lesa 07 R101 To FAU 100 Ve o Ma Ma Schematic ECG Board P N 315589 3 of 5 page 5 13 14
23. lt 294 PT2 ScaleFactor 28672 lt 33078 lt 38796 PT2 Excitation adu 267 lt 286 lt 294 BATTERY NIBP Service Menu 4 20 Perform the following tests to determine that the NIBP parameter is functioning normally 4 7 2 1 Leak Test CAUTION Calibration equipment should always be kept dry and free of particulate matter Moisture or foreign substances introduced to the pneumatic system will likely cause damage to the monitor and or the accessories Using the calibration kit part number 320 246 an adult cuff and air hose and a manometer set up the equipment as shown in Figure 3 1 Connect the hose to the NIBP Parameter Make sure all fittings are tight and that the valve on the manual inflation bulb is fully closed CH NIST CALIBRATED DIGITAL MANOMETER INFLATION BULB T 7 ADAPTER 2TUBE y BPCUFF d 12 AIR HOSE Figure 4 1 NIBP Test Setup From the Service Menu Turn and press the rotor to select the NIBP service parameter Turn and press the rotor to select pneumatic reset Turn and press the rotor to select valve close 4 21 5 Turn and press the rotor to select start leak test Observe that the Leak Test Status message on the menu indicates Busy 6 Observe that the pump begins inflating the system to 200 210 mmHg at which point the pump operation will cease The Monitor will begin to calculate system pressure
24. o TA 2 3 10 9 n 48V ct ve T H SC Y ww Lost 2 Eo 5 ope 7 E al vi 3V3D 3V3D ALE ei Bo p C82 46V 4 2 41 3 A8 C GND 7 PIN tour 13 S E EE HC02 R53 R54 10K 10K 9 RIOUT Lo rin T ENABLE AND TT No 1K0 R36 Mm map Ui e 3V3D A 12 FORCEON FORCEOFF L SEA y ENABLE ND 12 RS232 ps S Ben l D27 C D28 o 3 i Hg BZX84C BZX84C 5 Ta 3V3D 5v1 Su l C95 Wem L wer L Le Q4 PHT6NO6LT gt REMOTE ALARM i ki L i Y Benso i D32 BZX84C svi Schematic PSU P N 315593 5 of 5 Page 5 51 52 PL1 AS SW M A B SWA 2 7 NIPB e Joc As swe 3L e swe al gt SUD 5 swe POWERILI 6 C A B SWE 7 fr AJ k STAT SIM d se d SWG 105 c S SWH 11 A B EXT POWER LED 121 STANDBY i doc BATT LED 13 e VDC OP POWER YELLOW 14 e ni POWER GREEN 16 C A B A STANDBY_YELLOW DL e SILENCE i doc A EXT PWR STANDBY GREEN 18 e TREND YELLOW 19 TREND GREEN 201 6 gt BATT Za STAT_GREEN 24 C A B Ko e a f AT LED2 POWER i jo A B POWER LUY53C LUYS3C STAT_YELLOW 23 C x SILENCE YELLOW 24 C 4 SILENCE RED 25 f EDS FREEZE YELLOW 26 y de B LSG53D FREEZE_GREEN 27 TREND i ATO Gn KR NIPB_GREEN 28 D 29 e NIPB_YELLOW 30 Ch LEDI9 MAIN YELLOW 3 e A swa B STANDBY LUY53C MAIN GREEN 32 P MAIN i doc A x RECORD YELLOW 33 e gt RECORD_GREEN
25. 13 100nF Reg pa Hise A A ADB052A simos Dr DIN pout 5 R190 RESETIL OR RFB U R186 R187 1 e SPLCLK A sc vour 2 4 e e Su 4 4K12 5 las 15K 15K DEFBENL os t Bipore U Voy 8 AenD REFN 400p e end wi wan PL5 T Je R188 S Zem R376 a ANALOG OUTPUT Kat Bag wr e 3 m CONNECTOR al BLM31B601S R440 PAPA 10K UM G LM79L05 om 2 T 10uF VINI kat 3 vin 1 ap VOUT 5 ving L vw e 5 ANA 5VD R75 ARO C122 tour 16V SVD 5VD U68 LM386 PL2 Gut R314 C61 R185 Q L28 a SOUNDER i REL soli PENA 1 S 100nF ll N d 2 y nim L29 2 SPEAKER n 7 ul mum 3V3D C243 Ii c152 4 R283 16V BLM31B601S CONNECTOR re u T U23 3V3D DE 5 MAX518 u8 en Je C63 C121 T 100nF DEI 74HC4053 100nF our cn 1 1 1 46 100nF gt 18V DTC143ZKA VOD OUTO e D vec R315 Ke R264 ank SL z 5 3 sc aun D e 3 z 4 1M0 L c 200K ali m Le 41 spa Apo ew 1v0 n g reen E ab Lia M 2 en oi _ C65 C66 ta VEE s2 x 100nF 100nF GND s3 R323 15K 3V3D C244 e O 82 R429 1K0 Q14 DTC143ZKA o D14 K 3 12CSDA pr SOUND TIER M Schematic Main Board P N 315592 10 of 12 Page 5 37 38 R90 IRFB
26. 2 R30 47K5 L LO pc iNPUT E SHT 4 PL4 D13 mm o e gt e e e e e e e gt ssw PBYR1045 Bi SHT 2 10K It C75 C76 mu 6 ATOUF ATOUF ur 50V 50V 100nF 88 A Dt C23 e e e I SM6T39CA 100nF u2 l LM2931D2T RIS L c2 10K7 T 100nF a 8 4 oun OUT e e e LO mann 2 SHDN an H end e e e R33 tt c73 S 1K0 AUF PL3 tev FS2 D12 g gt L 2 5A0 PBYR1045 R64 9K09 E e DIO VDC OP vi2 6 7 n LN839 e e e 1 e ei BAV70 Heu u17 c51 TATE Li R3 LT1339 an 16V 16K9 ate DIS u2 ie Viae rn PHP21N06T I LM339 E css e ser a gt WF teH e Wem 8 16V E Lan 3lor L H e T 1nF TS e L 4 y SUADJ CD e R21 avin 2 A en L2 u12 e e 5 lave Bo S m o 79uH n LM339 ORO E a S 1 Q16 SS PON e PHP21N06T Di Ilve Phase H Lo e T L 13 RUN SHD 330pF 2 l ZE sevse H Ey 9 C11 VFB e LI A 10 VREF SENSE AP P gt II RB160L 40 DTC143ZKA is a digital transistor with a 4K7 base resistor and a 47K base pull down resistor 1nF 10K D12 D13 Q16 Require heatsink type F13 2 220D 2LS 9 e e Q15 Requires heatsink type F14 2 220 2L Sh e 100nF R87 R34 R74 100K e 1K0 10K7 e R24 C99 ORO EM Em Em EM R5 D 0R022 w A S Ld D gt gt wen SHT 2 Lt C6 Lt c7 ATOUF A7OUF 35V 35V e c Schematic PSU PIN 315593 1 or 5 Page 5 43 44
27. 34 E it LED9 a p li LSG53D a Mg TREND ai 7 VDC OP T FREEZE abo S La LED8 JL 156530 sw2 A 8 xx RECORD T 4 LED21 LSG53D L STAT x x x e e e LED20 mal xdi LUY53C SILENCE LUY53C SS e LED10 L LMR53DG V LED14 FREEZE ee x b e l LED4 NIPB igen l oe b 9 7 LED12 l Lusso M LEDIS MAIN LUY53C xx gt LED5 we 156530 RECORD 7 x La LED6 LA LSG53D Schematic Keyboard P N 315594 1 of 1 page 5 53 54 Not Populated VCC 1 Not Populated GND 1 J1 J2 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 2K43 2K43 2K43 1K00 2K43 2K43 1K00 2K43 2K43 1K00 e e R14 R15 R1 R3 R2 R16 R17 R18 R19 2K43 2K43 1K00 1K00 2K43 2K43 1K00 2K43 1K00 e e e Schematic Probe Warmer P N 315595 1 of 1 page 5 55 56
28. 3K83 Maintain 0 050 in clearance 2 ANODE U7 Ree to ground plane in this area HCPL 261N YO gt D FROM HOST h mola CATHODE 604R ew E 2 R3 5 vr MMBT3906LT1 604R Ny A ai Ma R67 15K0 DG Vos P_RAW R4 R5 GNO 1K43 2 1K43 ol o C43 T 10N0 e Voe CR4 7 8 Do ENAB VCC U6 ANODE 2 o vo HCPL 261N a NOTE Host must provide pull up on output data line CATHODH DTO HOST Schematic ECG Board P N 315589 5 of 5 page 5 17 18 SS EERZS BEB BE BRIEG 3V3D823 EN 3V3D823 5 3V3D823 BEER 3V3D823 did gt d Sd d Sg Sd Sd d So S CS S a 28 GSE SE SE 8 5858 8 S 8 s5 VRAM 3V3D823 A 9 1 9 S BEN d Ae lea g la a ls Les lalala g BE RS7 aj 3 aj i io T 100nF S el a T 100nF el a e e a amp gj m E g gm
29. 43 through 5 52 A RM E licia 5 53 54 Probe Warmen ebe 5 55 56 SECTION 1 INTRODUCTION Contents 1 3 OCOpPe DEMANA lee ea 1 1 T2 Mana CHANGE S kek babe ET METER 1 2 1 IS SIVICO POMO ld AA AAA AAA IDRA 1 2 1 3 1 Extended WarrantieS i 1 2 TORE Assista Eenheete EE EE EEN Eet EI 1 2 E IR Ob eu Da D p Los Su eS Do DN 1 3 1 3 4 Service LOANCISs RE 1 4 1 35 Repair FANG enee 1 4 1 3 6 Replacement Accessories ui 1 5 ios A AAA A NERA RALE 1 5 1 4 KEN EH Re ee e EE 1 5 1 4 2 Storage E 1 6 ELE ee EE 1 7 This page intentionally left blank SECTION 1 INTRODUCTION 1 1 SCOPE OF MANUAL This Service Manual provides service and parts repair information about the DINAMAP PRO 1000 Monitor This manual is intended for use by trained service technicians who are familiar with electromechanical devices and digital and analog circuit techniques WARNING To reduce the risk of electric shock do not remove cover or back of any component Refer servicing to CAUTION qualified service personnel Only qualified service technicians should perform repairs to this equipment Voltages dangerous to life exist in this unit Take care when servicing power supply and display assembly For information about operating the Monitor in a clinical environment refer to the separate Operation Manual This Service Manual consists of the following four sections Section 1 describes this volume and tells you how to use it Infor
30. 750R 750R 0 1 470R ueg p 1 UCC3809D 1 e s 3V3D 1 8 SN OB REF CH 5VD d Uni Ass vo e e R299 C233 HCPL 2601 Ri 10K 8 lari our L e 100nF D vec ME 10R ISOLATION BARRIER T ve 4 5 6 R21 RT2 GND t 0112 C99 It 0113 4 v 3 1uF 100nF 1uF R427 S ao KAY o FROM_SPO2_ISO 50V 50V e ORO 1 R303 R320 l e cus Se Je 332 15K mer Ek R426 PL13 VRAW e e NF R192 IP o 5VD 2 2 vto 032 mw PROBE HOLDER HCPL 2601 SI9956DY 7 4 em CONNECTOR MM U83 8 Sl 2 lan vec e WARM_T ef 1 j 3 Yo HS em Np 2 ok Us een vo L gt To sPO2 Iso 5 C146 C92 L c14 D16 HCT32 H 7 hi 10nF 100pF T 330pF BZX84C al W Di d e e e e re 1 7 a32 ATOR 4 SI9956DY s R20 5VD bud R432 S WARM B 4 E S 6 A Ha FROM SPO2 R298 0 HCT32 3 T ane lie TO SPO2 13 Q26 W e gt 3V3D 14 DTC143ZKA 1 5 d AN E gt RESET_TO_SPO2_ISO alt HC02 U83 U83 7 Bi 9 i 12 2 cm IE 10 13 GND 7 B HCT32 HCT32 5v0 14 zi gt Riz SSES XC y DTCMSZKA Schematic Main Board P N 315592 8 of 12 Page 5 33 34 gt LATCHED OVP 3V gt LATCHED OVC 3V 3vap823 BO ss 5V 3 3V CONVERTER ver na ur TALCX244 LATCHED OVP Um vi pe LATCHED_OVC Ala va HE PRINTER_TX e 8 lag va 14 Du 0 v G i am
31. CHARGE STATUS 5 RASIANIVREF RB4 25 R397 xa COL 8 RA4ITOCKI RB3 LN FAILSAFE L 1 RASIANG rez 28 10K dL C202 me Za a 21 oscticLKN RBONNT Ht 2 15pF 40 oscarcLKoUT SEH pen 111 Reomtoso Rc H8 gt FAIL SEC 4 0MHz ORO 12 Rct TI0SI Rce HZ j TIMECHK C203 19 Reziccrt ros LR j SHER e 14 RcascKscL Reasprspa LB e 12CSDA LAPE veer vss2 8 19 5 3V3ENHC T ARM FSLK 1 3V3D VRAM C10 ci 100nF 100nF U15 U36 PCF8582C ak PCF8563T 8 L C162 XL4 8 3V30P i Sec T fopr E 32 768kHz woo si ZE AD TEST H osci akor L 3V30P SI ser 2 losco sa i iub 3 5 L slar 5 M SDA int SDA vss vss 9 20K 4 4 R175 ADDR ADDR 100K 4010000RW 1010001RAV e ca Q30 N DTC143ZKA I2csc e 1 018 9 Uf8 2 m B e gt POWER 13 U18 E e 10 8 3 HC10 SY 3V30P 14 e 11 4 6 POWERIL gt HC10 5 3V30P HC10 ROTORIL A c9 D 100nF Schematic P N 315592 Main Page 5 21 22 Board 2 of 12 ANA
32. D10 A2 8 lag De Li Do A2 zl br L4 D A20 8 ato De 30 o7 Am 5 lan pa 32 D6 AIR 4 a pw 34 D5 AT 8 it pa 136 D Am 2 ka pi 32 D3 A5 as pa LA D2 At 481 nie pu L8 DI At an pas L Do At 15 un Att zl savap Il pyre par UR TEE GPLI MA og RESET 12 RESE 4 peu gp we VSS1 vss2 a D 3V3D la C6 Um AT27BV010 100nF vec ABI 12 so A30 las A 10 ap An gl av L8 D A27 8 la ai L4 D6 An as 02 LR D5 A5 zl MEE D v sly o L R D3 AB zl os 12 D2 A2 26 ag os 2 DI A2 23 Mo or L2 Do A20 25 an AM Al an 3V3D ES 28 va A17 291 va A16 3 Jus R358 A15 2 10K Am cso WA 2E pau A cri AA 05 3V30 Mr vpp GND DC_INPUT VBAT 3V30P C242 U46 WE MAX809R 3 vec RESET GND i 3V30P 2 e R372 10K J R366 gt EXT POWER LED 1K2 TH1 9 E i D 5 Q21 d DTC143ZKA R423 R367 49K9 gt BATT_LED 1K2 R257 L C247 9 10K T 100nF 3V30P N C12 Q22 d ky DTC143ZKA 5 E 100nF Sc 3V30P L l Ki x R365 R96 u49 10k 1K0 PIC16LC72 20 ee A VPPIMCLRL VDD 2 RAOIANO Ra 28 gt BATLOFFL 3 RMIANT nae 27 gt CHARGER ONIH e e A06 V 4 RAZIAN2 Res 26 e
33. Ge PUMP ON Bs 100K ANA PNEU RESET e ar L FAILSAFE L Zu o ium SI9956DY s e 03 2 T 6 A Ks DTAMSXKA R428 0 4 1K0 LI A S 3 SI9410DY 7 t 8 Q a SI9956DY 7 4 L 8 L 5 A R276 CS 30K 1 5VD a L L de 5VD Se R127 33K2 R260 um T H pe 77s R277 100K e 3K09 L tur A 6 1 gt 6136 L 100nF R7 Ka y C38 WO E R273 gt e 200K L L R308 1 C40 20K T 100nF ni 10K PUMPC 3 e Schematic Main Board P N 315592 5 of 12 Page 5 27 28 VRAM U37 VRAM LP2951CD 3V3 ET 3 1 3V30P e VN VOUT e E 100nF l FB SENSE L ue el 6 ER ct e Een 5 TE di 4 T 100uF 1 100nF SERR GND 100 E Die BAT ON 15 ni E d gt e o H2 BAS16 ten L wai L C49 9 ums e 114 T 100nF AA TOWLINE Him L po RESET 13 mese 15 R74 D20 D11 RESET BATT OK 2 VRAWI K 2K0 3 BAS16 BAS16 kok R385 D Le il L 2K0 Ge BMC Mmmm 1 PL7 mn gt DCINPUT wm wm o mm BATT_OFFIL POWER MONITOR m CHARGER ONM mmm 5 3V3ENHI CONNECTOR mn 12V_ONH mm e gt weem mm e gt var m gt CHARGE STATUS R174 10K LD SRAM CSL ces gt RESETIH gt RESET V_FSA 3V3 BAT ust E LP2951CD 3V3 3 8 vin vanga T Fg SENSEL2 A 8 TAP son L3
34. Vac Vas C85 com SION A C38 Ve Ep 1N00 Slos E 10N0 Vas l Vac 10KQ Vac EU leg Les ve R22 100N DAC ECG I o R95 100K BLANK ECG0 10K0 Vas Wie 1 083 L C26 1N00 T 1U00 Vas Vas CLK ECG LPF ml PSAL PSAL l PSAI PSAI PSAL C72 RT en R92 PSAI me leo VREF e 1 20K0 t ine 100K T Lcos EE PA R32 100P 100N7 6 wat Nas wer SEH VREF R75 330P 143K OPA4340 Leet ZE 19K1 th 3 IN 4 S 7 e gt OUT PDO 18 C9 R12 R11 i W o T it a l il 2 A a D ar 20K0 7K87 da Ut7 U21 100N SS C41 Via Sie de V cao Vac T 10N0 Vac R70 T4 100K AG T 10N0 4K99 a PSAI AG AG AG Mag LM393 Te l 2 R de U17 Lee R6 Vas T 10NO 20K0 Vas Vas OUT_ECG Schematic ECG Board P N 315589 2 of 5 page 5 11 12 PSAI C75 VREF Kim Rica U31 n di OPA4350 Vac o 3 CC NC 4 5 4 N e S 7 R49 R50 C10 1 1 1 8 C3 R56 100R gr 1 co No 16 16K2 6 I 15 IN Lan 13 L022 U23 VREF PSAI PSAL o 8 100P C16 C44 M 33P0 EE R17 MAX383 Vac PARSO 10P0 AQW214S Va e 3 4 750R C1 R54 IN R39 La stal e gt Vi j L5 o RLS1 0 Zei st 3N30 499R
35. are NON ISOLATED and should be connected to equipment conforming to IEC 601 1 1 ONLY Where isolation of data communication is required the Critikon isolated level converter should be used If external alarm control is required Critikon part number 487208 Isolated Remote Alarm Cable Assembly should ALWAYS be used Please refer to the Information Sheet included with the isolated remote alarm cable for operational details Note When using remote alarm the PRO Monitor should be considered the primary alarm source The secondary alarm is used for secondary purposes only 2 4 1 DB15 DB9 Connector Pin Assignments Pin 1 ANN e o O O O O O 0 O oo O O 0 90 0 Pin 9 Pin 15 Pin Function Pin Function 1 Ground 1 Ground 2 TX2_Inverted TTL Data 2 TX1 Inverted TTL Data 3 RX2_Inverted TTL Data 3 RX1 4 AUX5V 600mA max 4 TX2 5 AUX12V 250mA max 5 RX2 6 Serial Level Control High TTL Low RS 232 6 5V 600mA Max 7 Ground 7 12V 400mA Max 8 Remote Alarm open collector 75mA Max Sink 8 No Connection 9 No Connection 9 No Connection 10 No Connection 11 TX2 RS232 12 Port Enable Control lt low port 2 when in use DB9 4 amp 5 disabled 13 RX2 RS232 14 No connection 15 No connection 2 5 COMPATIBLE PARTS The following parts are available from Customer Service Description of Compati
36. battery back up enable when no external sources are present and will shut down the unit when the battery is exhausted It will enable the battery charging circuit based on the battery charge status unit power consumption and the availability of an external power source The SPO2 processor monitors pulse oximetry signal and passes the processed signals to the SPO2 interface chip The interface chip takes the signals and derives the oxygen saturation and heart rate data and converts them into serial data The serial data from the SPO2 interface chip are send across an isolation barrier optocouplers and passed to the Primary Processor via a dual channel UART The Temperature Module is a dual channel system Two IVAC probes and the calibration resistor chain are connected into a multiplexer that is controlled by a single chip micro controller The micro controller will then switch the output of the multiplexer between the calibration chain and the two probes The multiplexer output is buffered level shifted and amplified before being connected to a MAX1241 12 bit serial DAC which is read by the microcontroller The microcontroller will compute the resistance for each probe and associated leads and transmit both resistance values to the Primary Processor in a 34 bit data stream A switch controls each probe the Primary Processor will interpret the status of the switches and select the appropriate part of the data stream from the temperature circu
37. enabled from full charge Time for full recharge 1 hr 50 min from full discharge when the Monitor is switched off and 8 hrs when Monitor is switched on 2 6 2 Environmental OPERATING TEMPERATURE 5 C to 40 C 41 F to 104 F OPERATING ATMOSPHERIC PRESSURE RANGE 700 to 1060 hectoPascal STORAGE TEMPERATURE 20 C to 50 C 4 F to 122 F STORAGE TRANSPORTATION ATMOSPHERIC PRESSURE 500 to 1060 hectoPascal HUMIDITY RANGE 0 to 95 Yo non condensing RADIO FREQUENCY Complies with IEC Publication 601 1 2 April 1993 Medical Electrical Equipment Electromagnetic Compatibility Requirements and Tests and CISPR 11 Group 1 Class A for radiated and conducted emissions INGRESS OF LIQUIDS The Monitor is protected against vertically falling drops of water and conforms with the IEC 529 standard at level of IPX1 No harmful effects will come of vertically falling drops of water making contact with the Monitor 2 9 2 6 3 Mechanical Height 9 8 in 25 0 cm DIMENSIONS Width 9 8 in 24 8 cm Depth 6 9 in 17 5 cm WEIGHT including battery 7 8 lb 3 5 kg MOUNTINGS Self supporting on rubber feet or pole mountable PORTABILITY Carried by recessed handle or pole mounted CLASSIFICATION Mode of Operation Continuous Degree of Protection against INFORMATION harmful ingress of water Drip proof IP X1 2 6 4 NIBP
38. lolo oe R410 gt R411 gt R412 330K gt 330K gt 330K ur TALCX244 e JU mR pRINTER_RX e T vo PRINTER CTS eL va 15 gt PRINTER PRESL JU Mm CIE G T 5VD UP PLI ET NEE al A L So 5 e PRINTER_PRES H mmm ee up mm c217 Lt C216 12 220uF T 220uF a 28V 25V mmm L s en em em em em i 0 2 wm e mm 28 em PRINT_DATA_IN 24 PRINT_DATA_OUT 25 mm 26 emm e mm PRINT_DIN_EN 28 mm D em em PRINTER_RESET si mm 2 ga um 34 mm 35 mmm 36 mmm 37 mmm 38 a i 40 PRINTER CONNECTOR LCD CONNECTOR LCD BACKLIGHT CONNECTOR i Ier au Da OS Wer mo o L en H T 3 Lol 4 l CONNECTOR R C3 REMOTE ALARM 5 1 ge 5VD 5VD C246 e 22UF L C214 bi T 10nF C59 23 R393 e BLM41P181S L LCD CL 100nF PY YN al 49R9 L24 PL3 R394 BLM31B601S HSYNC U44 HCT244 I918601 d 2 18 H TI oo At n L25 mm VSYNG Ha vH BLM31B601S 3 49R9 IM Se A i LCDOEIL
39. period greater than 500 milliseconds When this condition occurs Filter_OVP 0 transitions low setting the internal latch The latch output state is indicated by the Latched_OVP signal The latch can only be cleared by the PNEURESET input 3 3 7 LCD Assembly The PRO monitor uses TFT thin film transistor active matrix color liquid display The 10 4 diagonal display contains 640 x 480 pixels and can display 262 144 colors simultaneously The display is backlit by cold cathode fluorescent lamps Note the backlight power inverter is mounted separately from the other PCB s The LCD is driven from the Primary Processor via buffers HCT244 on a dedicated LCD driver port 3 9 Signal Name Horizontal Sync R 0 3 Red bits 0 3 G 0 3 Green bits 0 3 Blue bits 0 3 The display module has a 31 way control signal connector and a 4 way backlight driving connector 3 3 8 Printer Optional 3 10 The PRO monitor uses a thermal graphics printer The printer requires a 5V supply for its logic circuitry and 12V nominal for the motor The power and data lines are connected to the Main Board by a 40 way cable The data lines are connected to the SCC3 port on the Primary Processor The printer has a built in sensor to monitor the printer paper level When the printer is out of paper it sends a PAPER OUT signal to the Secondary Processor SECTION 4 GENERAL MAINTENANCE Contents 4 Vo AOU NO EE 4 3 4 2 Configuring the
40. recording once every 20 minutes 1 7 SECTION 2 PRODUCT DESCRIPTION CONTENTS 2 1 INIFOGUEHON A E 2 3 2 2 Product Configurations kato aie n ro oo oo oo oo eee 2 3 2 2 Controls Indicators and Connechors eee 2 3 2 3 1 PRO Monitor Rear Panel Connections 2 4 2 3 2 Front Panel Controls and Indicators 2 5 2 4 Host Port Connector rear panell 2 7 24 PIRASSIGNMENIS EE 2 7 2 5 Compatible Parts eee ete ai ili 2 8 2 G AAA l l ak pk k kk a e pa e ab pk ak pa e ba kak REES 2 9 2 6 1 Power e En EE 2 9 2 02 ENVIFOMMEMGL i edel A eae merat eidele 2 9 SE MECHAN CA EE EE 2 10 DORA IL 2 10 2 0 9 TOMES A kad MA A e EAR iaaa 2 10 EE 2 11 260 EE 2 12 2 1 2 2 This page intentionally left blank 2 1 INTRODUCTION 2 2 PRODUCT CONFIGURATIONS 2 3 CONTROLS INDICATORS AND CONNECTORS SECTION 2 PRODUCT DESCRIPTION DINAMAP PRO Monitors provide non invasive determination of systolic blood pressure diastolic blood pressure mean arterial pressure pulse rate 3 lead ECG temperature and oxygen saturation These portable AC and DC operated monitors are primarily intended for use in hospital acute care settings such as outpatient surgery accident and emergency labor and delivery Gl endoscopy and medical surgical units Each PRO Monitor is supplied with an accessory pack The contents of the pack vary according to model Unpack the items carefully an
41. such a way that only one parameter is functioning at a time e Perform a blood pressure by connecting the e Connect the supplied temperature probes to the e The SpO sensor is an assembly consisting of supplied hose and cuff together then attaching to the left side of the PRO Monitor Press the Start Key on the front to begin the NIBP cycle Oral Probe Holster SelectKnob Front Probe Cover Storage corresponding connections see right A predictive temperature will begin once one probe is removed from its holster Replace the probe after completion of the Temp cycle Rectal Probe Holster Oral Temp Connector Rectal Temp Connector ECG Connector two parts the DS 100A and the extender cable SCP 10 Connect the cables prior to attaching to the monitor A SpO5 reading will be displayed within moments of attaching the sensor to either CT a Nellcor simulator or to your finger Left Side View of the Monitor Showing Patient Connections SpO Connector NIBP Connector e Connect the ECG lead connector to the ECG trunk cable prior to connecting to the monitor The simplest way to function test the ECG circuits is through the usage of an ECG simulator Set your simulator to normal heart rate Set ECG amplitude to 1 5mV BPM to 80 Set respirations to 20 RPM delta ohms to 1 0 Verify that the ECG waveform is displayed Remove and reattach leads l Il and Ill sequentially and verify that LEAD OFF is d
42. the bag to prevent loose particles or materials from entering openings such as hose ports e Use a sturdy corrugated container to ship the product tape securely to seal the container for shipping e Pack with 4 to 6 in of padding on all sides of the product Insurance Insurance is at the customer s discretion The shipper must initiate claims for damage to the product 1 3 4 Service Loaners A loaner unit is provided at no charge during the service life of the product when we perform the repair service Within 48 hours of your request a loaner will be shipped to your facility e General Electric Medical Systems will pay shipping charges for a loaner sent to the customer for product repairs under the warranty e Shipping charges for a loaner sent to the customer for product repairs not under warranty will be billed to the customer e The customer will pay shipping charges to return a loaner All loaners provided to customers must be returned within the specified time stated on the loaner agreement or a rental fee will be incurred 1 3 5 Repair Parts Repair parts can be ordered from General Electric Medical Systems Via phone 1 877 274 8456 or Via FAX 1 813 887 2430 Exchange replacement assemblies such as Circuit Board Assemblies also are available ask the Customer Support representative for details Please allow one working day for confirmation of your order All orders must include the following information e Facility
43. when you order spare parts e the facility s account number if possible e the 6 digit part number for spare or replacement parts 1 3 3 Service If your product requires warranty extended warranty or non warranty repair service call Customer Support and a representative will assist you Estimates for non warranty repairs are provided at no charge however the product must be sent to the General Electric Medical Systems Service Center in order to provide you with an estimate To facilitate prompt service in cases where the product has external chassis or case damage please advise the Customer Support representative when you Call The Customer Support representative will record all necessary information and will provide you with a Return Merchandise Authorization Number RMA Prior to returning any product for repair you must have a RMA number Contact technical support at 1 877 274 8456 Monday through Friday 8 00 a m to 7 00 p m EST excluding holidays Packing Instructions Follow these recommended packing instructions e Remove all hoses cables sensors and power cords from the monitor before packing e Pack only the accessories you are requested to return place them in a separate bag and insert the bag and the product inside the shipping carton e Use the original shipping carton and packing materials if available If the original shipping carton is not available e Place the product in a plastic bag and tie or tape
44. 0 500 Normal open neutral leakage pA 0 500 Reverse no fault leakage pA 0 500 Reverse open ground leakage pA 0 500 Reverse open neutral leakage uA 0 500 Tested by Date Signature Facility 4 36 MONI TOR CONFI GURATI ON LOG Appendix B DI NAMAP PRO 1000 Monitor Series Note Please refer to the PRO 1000 Pre Service and Galibration Procedures for instructions Date Cty Hospital Serial Numbers How to Enter Configuration Mode 1 Moose other system settings from the Main Menu 2 Choose go to config mode The message This will initiate the sequence for entering Configuration Mode Do you want to do this appears 3 Choose Yes to enter configuration mode 4 The message Please enter the Config Mode password appears Enter the password FACTORY SET CONFIG PASSVVORD 2508 5 Choose Done 6 The system will restart in configuration mode Press the SelectKnob to access the Configuration Menu How to Configure Default Tables Choose adimit patient from the Configuration Menu Choose Choose patient settings Select the table you wish to configure default 1 through default 6 A popup window appears All unsaved changes to the current default will be lost Are you sure you wart to do this Choose Yes Choose Patient type and select either Adult pediatric or neonate Change all other available settings as desired To save your changes for the selected table go to other system settings choose save default changes A p
45. 0226200 va Slap W Ki e L om ili A 100K 7 TLC3704CD abi T 100nF 5 a ao a apt R331 R332 n WE 100K 100K d Sen Ciy or api 2V5VREF NI vm 9 1 R196 VDD VOD SDCLK 10K Riga gt R267 Ka m u22 10K 20K DACCLK C R83 200R R4 we PIC16C66 20 DACDATA I no M 49K9 ar 05 re 2 3 REDSDFF LOWSIGL DACLOAD L C rat RAY 200R 23 we paz LA DARKSDFF R44 uM 24 5 LOWSIGL gt MODE e ras D ERRORI al ME 200R R43 261 ras mE e 7 ASIC RESET L ZEROITEST lt TD 2 200R R38 on B wap RESET OUT 200R SNSRDET L C 31 Ro oset L VDD VDD 12 ror asc UL vs x3 CLK20 C86 RCALOUT Dis e 1 e R193 14 Ros vm e ol 20MHz UA wi R195 e I 5 HC74 10K 1000 a C104 C103 aT van 10K EL M pi 18pF 18pF ge e DCH FROM SPO2 180 C Ies vos A d om ab e Ore Eu Ka om Fee 3 o TO SPO2 ISO EEN vs e T tur AK lat Hie 46V i e eda DT ik 150R ee o so PIT gt gt d L Schematic Main Board P N 315592 12 of 12 Page 5 41 42 MAINS AC DC MODULE EXTERNAL DC 12V TO 32V E A R93 127K gere LD BATTERY SWITCH SHT
46. 0K cw Ka e och tic Main Board P N 315592 3 of 12 Page 5 23 24 5VD ECGLENLI C212 3V3D L de tone 3V3D C172 C36 R351 22pF 1K PL10 E 100nF 4 pax R377 U14 mmm l36864AMHz SS 1M0 XR16C2850 44 2 cia vec A e 18 Ta ma Ece TX 4 mm CONNECTOR 22pF 19 aus walt e ECG RX 5 em RESET s mei H I RESET MIT eu 24 ig apa ve2 20 ow RXRDYAL34 Bso 3 161 cen EN 2 E Dee maner gt To SPO2 HCT32 d m A U20 2 rA opa 35 FROM SPO2 CssiLI 2 Hal a 2 inte opp H5 l cs7 5 mer mi ACOB AS 31 ap coste AS 30 y Paa 4t A 31 6 29 92 erg u82 43 4 fas 5 AB m o Zi HCT32 3 pi KaR sl 2102 RTB Tt 5 Di sfa Da e Los nas 188 D 8 ps crea il D 31 0 Siy woo 28 3 L HCT32 2 e Schematic Main Board P N 315592 4 of 12 Page 5 25 26 PL14 3V3D
47. 0uF 100nF C 100nF S 25V 25V 25V 2 A 25V 25V 150K FREQ C e ou i R49 L C57 po YO R6 Loe R2 TH R62 W der 58 poup Z 0R022 T 2n2 24K3 oe ee G25C u22 20K FAN w 5 5 LM339 GND Ba R60 PL6 3 Lo o 2 150K L 0 4 R12 Res 1 R117 220nF R110 R68 100K Bal sok 20K 24K3 53K6 2 mt u14 e L TL431 e 3 LM324A D33 R107 C16 C82 e e e e e e e e e e e e E e e L pe R11 100K 100nF 100nF e e u21 PHT6NOGLT FT 100K 3 LM324A 08 BAVTO R59 Jr om T Auf Ree R48 R108 f 20K 2 2k 20K 20K e e e e e e Schematic PSU P N 315593 3 of 5 Page 5 47 48 C5 PL2 2n2 ANA gt l i R72 R16 rem pu NP I Lea 324R 1K07 4 e r es POWER U6 U6 Requires heatsink type F14 2 220 2L AUX SVF e 5 emm LM2596 4 0A9 SHT 5 7 CONNECTOR ANA FB VRAWI 8 VRAWI 2 5 e e OUT e e i Sat 2 47uH WU e 11 DN OEP 5 io D9 li ca en RB051L 40 L C79 C42 HOAR 100nF 470uF 100nF a e 25V o o e e e PLI 5VD SUPPLY DC INPUT O gem 2 ga an e 3 em Lk DTC143ZKA BATT_OFFL lt TD 5 i same ia SE POWER MONITOR SOM CONNECTOR wc OP 5 vear CHARGE STATUS i C72 100F R73 R10 3V3D 332R 562R temo U3 LM2595 FB 16 e e our H e e 100uH ON EF 5 K De le ct ci RB051L 40 L c2 C43 Sch Ke
48. 20 W gt spimiso DR TEMP_DATALL 1K0 3V3D823 e ESOL DR WED pou DR WARM B Bg 3V3D823 E a e SET 55555585 5558855 3 8 58583885 5 S555252 S em em em ses EE ss S 8 a A R dee SBISBSEGGEEEESNESBSIZIESEEEGESE ESASESIZ 86868688 H S225222 858 2 E TEE Sas es ERI EEE Ea eye E rame E NE R353 ei J 10K E a a 3 a a amp Ha l ERR T T 2 R414 E a lu SE Tel al o ol ds e Ma vi 2 D 3 3 3 ES 5 S S a NE R415 DI va e D 2 C229 SISAN g cos Ej m E C207 MIS N S8 8 m s D11 Gi 100nF El l a 100nF a 100nF d d a d R419 NF e Y td a a a a a a D12 g g 3V3D823 q e g d 3V3D823 Z 3V3D823 e e e Du _ wi a a g a S i ORO R420 s E S ig LI LT 3 ES 3V3D823 3 3 4 en a Te d Te Ja La 8 B8 L S cnematic Main boar ORO Si S o ES S ela S S al al ei el cle l 5 a 8 aala gt Si BI SI 8 88858 Page 5 19 20 A 31 6 VRAM C4 100nF U13 KM61640008 1 55 Veci VCC2 An 8 Ev E a A28 alee pe LI pal 21 a3 pi A SI p 2 A25 A4 pg ps 10 A4 43 ag pa 3 A 42 a ps LH A2 ag ve E AZI 26 49 pr LR A20 25 un ps 22 Am a pg L Am 28 p pto 2 MT BB is om 2 Me Nu pia 2 Am 20 45 pra 88 A4 191 A ou 2 An 36 aa pis 38 pp SRAM CSAIL ila Su o lE 40 gg 32 mpe WE vesi vss2 12 e U20 4 e 3 2 ACOB wapa GND7 U20 l 4 6 5 AC08 U20 BSO 9 8 BSI 10 A
49. 220uF 100nF e 25V e e e e e 3V3D SUPPLY au A DTC143ZKA Schematic PSU P N 315593 4 of 5 Page 5 49 50 HOST CONNECTOR 3V3D HOST INTERFACE U7 UT U7 C94 9 mot Mo altro LA TAHC14 74HC14 TAHC14 woer L e U7 LED A R76 CL e GND 7 1K0 Zeng Sosa BE BZX84C Bn U7 a g A RIT du e e 1K0 74HC14 D 26 s 45 BZX84C Bn d AI 3 COMMS 4 R40 e e 5 CONNECTOR i HOST_RX2 1K0 ema ap pa 6 E rj D22 E 3 aux savy 7 2 HOST_1X2 e m 47K5 m Ze svi as T 10uF us L a 10 5 HC240 REMOTE_ALARMILI RA An yi HE e Le vl 9 1K0 Sla vlt Lo os Ne BZX84C S svi AK SY oe A 1 GND 10 a 3V3D 3V30 20 C45 E c50 T 10uF tone LL tou R38 l 1K0 AXIN O U15 HC240 Jim LIE R114 Bi vd Dia vl 1K0 en o E m LK1 R NES 1 ur R39 1 ol 2 6 5 2 AT 2 3 t Ge 1K 3 Joan 3 le mc R85 D24 i AR S BS 4TK5 BZX84C C m svi 5 _ cy ot 6 C58 6 O 6 GND2 H c WIRELESS 7 7 8 U20 WE L ES Rar 9 CONNECTOR MAX3221E 15 18V N 9 9 10 tt C60 vee
50. 66 i 5 34 RECORD_GREEN R123 330R 5120 2D pe rt ae 121R R122 2230 3D 5 36 9 2140 4D R121 330R ER N 5D 330R R120 6Q 6D 270 7D R119 330R 2180 8D 121R 5VD E CA ABT374 5020 OE 100nF R118 U67 ck 210 1D R117 330R Ee 2D 121R R116 2230 3D 2140 4D R126 330R 2 150 5D 121R R125 1 6Q 6D 470 7D R124 330R 80 8D 121R L VDC OP DTA143XKA is a digital transistor with a 4K7 base resistor and a 10K base pull down resistor DTC143ZKA is a digital transistor with a 4K7 base resistor and a 47K base pull down resistor 5VD RESETIL S R373 10K e gt Q23 DTC144EKA PRINTER RESET j ANA GH u77 e LU uN vout e e e 78T12C LE c125 com L 100nF ki FA 3 TA p eus BZX84C D21 Jump BAS16 geg o R s d PL6 DE D7 i BASt6 R BAS16 b e e MOTOR umm MOTOR e 2 mm DEFLATE VALVE 1 mm DEFLATE VALVE Sig DUMP VALVE Sig DUMP VALVE Qt al SI9956DY s am 5VD 9 VD c37 me 100F 20 R310 20K ax ves Mio PALCE16V8 at U63 spe 7 e UNFIL OVPSVLL JU vos 103 8 FLT_OVPII E er you LATCHED_OVE CT 12100 j OVERCURRI e LATCHED_OWP_ lt f oi yoz 14 PUMP 42V_ONIH 31m DEFLATE Ali 5 DUMPIL 4
51. 8796 lt 294 Observe that both PT1 Pressure and PT2 Pressure display initial values of 0 on the menu BATTERY Turn and press the rotor to select cal press zero Observe that the message Inflate System to 200 mmHg Then Hit Cal Press 200 is displayed on menu Connect hose to NIBP Parameter 10 11 12 13 14 15 16 Fold the adult cuff so the index line is aligned with the inner range mark on the inside of the cuff Make sure all fittings are tight and that valve on inflation bulb is closed tightly If there is doubt about the integrity of the system perform the leak test paragraph 4 7 2 1 before continuing Close the pressure release valve on the manometer inflation bulb and manually pump up the pressure until the manometer indicates approximately 220 mmHg Allow the pressure to stabilize for at least a minute Then open the pressure release valve on the manometer inflation bulb and carefully bleed off pressure until the manometer indicates a little more than 200 mmHg Turn and press the rotor to select cal press 200 but do not press the knob at first When the manometer indicates exactly 200 mmHg press the Rotor Observe that system pressure is released and the message CAL Turn and press the rotor to select save cal info If the system is operating normally the menu displays Service Error None and the calibration setting is saved Repeat the calibration check procedure par
52. A OVITA Schematic Main Board P N 315592 7 of 12 Page 5 31 32 FAILSAFEL u52 XC62FP5002PR DI a o Do e e vn vou e O MT 4u7 RB160L 40 L om vss 220pF 1 Jos oer R198 R199 L C57 C 10uF bein 2K7 2K7 100nF 20V 20V 19 19 RI 4 ai 39R 1 TI e CEPH205 e e e e lt gt ovit ANA e e e e e e e n 4u7 1 4 con C100 cad LE C142 ce L c168 9 220uF 100nF 22 2u2 100nF T ATOpF 25V 50V 50V 12 e 7 s2 de L4 FSi R78 T e L o e e E 5vsPo2 30R RB160L 40 wi 03A 1 8 L om o T 220pF ee 06 d It ct58 E c159 R295 R438 PHTGNOGT 4 umm D18 10uF 10uF 750R 750R f 2 Ey by 1SMB5919BT3 H RB 5V6 tlre 39R 37 1 2N7002 3 3 e e e H I me j 2 e e R282 2R7 Jon R55 a 5 330pF 10K h e e e e PHTENDGLT 4 e0 C167 T ATOpF R286 CNYI7F 3 C97 R184 1K0 j u16 10K c AN e Th 100nF e e b Ae cri L A R54 2 3 f 7 10K R294 R430 R300
53. AC08 D 31 0 D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 DI DO 3V3D U39 e KM416S4030C 1 Vbi voD2 100nF Le 231 ap vopat S U at VDDO2 A7 251 a2 vopas La 26 ag VDDO4 A d AM 30 ag go Dat An 81 ag pi LA D30 A 32l a m S D29 An sla E D28 Am 94 ag E D27 GPLO I ato p 0 D26 Am 35 an Malt D25 wo D24 Ag Fee ps 2 D23 AB 20 iind Do 4 D22 SI Dio 45 D21 GPL2 IE H a ds GPL3 ge THU cas m m pia GPL I WE p m pi D13 gau m8 Low pta 4 Dit Bsa WI unam pts 5 Dis Ba csay m e c vs 8 ao RAYA a vssoo UZ 49R9 3T oe vssos 46 PLS vsso4 52 Ve Vs 28 5 3V3D des c5 100nF U40 KMates4o30c A voi voD2 z 231 Ag vopa A3 Al vona AZI 25 aa a 42 Am d vonas L A d Am 30 as SH DIE An 81 ag pr a D14 Am 32l a m S D13 An 33 ag MEL D12 A20 94 ag P Dt GPLO WI Im ps 0 Di Am 35 an p UI Do i L8 De D i amio pe 2 o7 E 20 uag pe 4 De s pio 45 Ds GPL2 S pas a E apu gH THU CAS N aa Da GPL 6 WE da Ba D13 ssi MA pom n14 15 DI Bso pl unam pis 5 D Ba A E e n veso L ciko ANN ak vssaz 2 49R9 37 oe vssos 146 GPL amp J vsso4 52 Ve vem 28 3V3D C8 U42 100nF AM29LV800B vec A30 25 so A al An 23 ap po 2 DIS A27 2 ag pi 31 D14 A26 DI ES Di A5 20 as ps 5 Di Aa DI Da 38 Di A23 18 47 ps L
54. AW e e 1KO 14K3 pa e R112 Di9 R43 VDCIN gt e e ORO VRAW ate ve ute SHT 1 0R010 PBYR1045 ias LT1620088 zn poi Losi KS e A C100 100R un 100R 100K a me vec ne ar MAX472 ni 1 4 VRAW2 Q12 SENSE We no Rc2 SHT 3 DTCH4SZKA C97 c17 R90 MTD2955V 8 ave PROG 7 agi EI 100K Q6 Qi7 cog 100nF 100nF CHARGERONH e Y 3 2 R121 DTC143ZKA e GND IOUT 5 ES SHT 4 A of ES N SHDN sen Las 5A0 R95 1000F e e Low our 18 o 9K09 L C87 e e re ME ato wot 12V_ONH L J DTC143ZKA SHT 4 R78 e 53K6 FS5 OI e e E e DD VBAT FDV302P R56 OAS iia R97 e cm ES e EI e 10K R113 FS6 00nF 56K2 e e aa e R47 4 ur BATTERY DISCONNECT al ee R19 R25 Dus EN 100R vi 100R a 1 e MAX472 zk 13K nc pe 026 PL7 3 IRGI vcc H e Kei 100nF 1 Se R120 d mmm BATTERY 7 2 237K 100nF K PN SEN mm BATTERY 4 R58 e mmm THERMISTOR OND our e 4 Lem THERMISTOR 33K Q 25 C R88 e e 10K Fi 20K e cag c29 RO oe R55 e ve gt tk tur pra BATTERY CONNECTOR PIC12C672 04SM Ty Gi 10K VoD 26K7 8 e T ao eu e lea TRICKLE CHARGE L Slon ani L6 Sing H 6 R57 SPE ie l ate vss DTC143ZKA 4 10K 8 NiMH BATTERY CHARGER L CHARGE STATUS SHT 4 arg k J DTC143ZKA Schematic PSU P N 315593 2 of 5 Page 5 45 46 vrawt L SHT 2
55. CS L BH q SPICLK 5 csi pang ER LATCHED OVG AV pa Ne2 pps RI LCDOE L cd Co RM R142 20 Ski m f LOR py E d RO ws Ra LCD 62 e 3V3D823 10K WATS Ra LCD B2 3V3D R143__10K CS serat pe pais FE SPO2 RESET R154 R59 L RMA 10K D wcs be SOUND TIMER2 e gt LOD_BRIGHTNESS e e g Sp Ges mom B SOUND TIMER2 py Md are Sup De co RZ LCD G1 t C195 C1 Sie a Psi pco BB PRINTER CTS o e Kr 100nF ooo IP B5 pp PO ADC BUSU e TF e BUSGRANT pen RIO TIMECHK R293 2K21 E TRERRACK Lu 7 L GAS R58 D UE TDUDSDI m 245 R58 2K21 pry ms RU CYCLE_PWR ci n E e RW bz PRINTER TX R386 CS6L _R369 CH ogg TXD2 moro mo Rid PRINTER RX W i g 92 CR cn ko su GPLI CR ae PAM W AF poss RIS LATCHED OVP AV e 3V3D823 DY cLKOUT p LHR 3V3D823 L 22 030 SR LCD G4 D una 2 06 qu PL8 M R148 10K bs app L00 83 e R357 PO fa PRINTER_PRES TCK_DSCK 1 10K R149 10K i Dd eo id E 3V3D823 s res DI li net N E MODCK1 T6 UNFIL_OVP DSD1 TD1 3 R352 e m SH R150 10 DT pw PAOS 10K un l a of po von P DSDO_TDO 4 em 7 FH T8 WARM T 5 Se LV244 of o ei ee D19 21m ve R151 YOK m sumxp2 2 ma RESET 7 1 ORO R413 ale ye D TRANS STR en O FAIL PRIL n EI R152 10K DI aou pae A 6 u D n HOST RX2 BAS16 R417 NF e 5 n Cem Ra DIA ce suen M1 HOSTRX2 qq e e Aw le D css DH Tcksck 12 e ORO R418 E W e pog D REM AL SEO GPL3 DM pM UU e S mS Ee a espa DR I2CSDA ORO GND 10 DEE D we HO WM R108 3 80823
56. Charge Type FAST Battery Failed FALSE TEMP Charger supply Enabled TRUE ECG RESP NIBP SpO2 DC Supply Voltage mV 15036 23761 25942 H 12 Supply mV 1005 lt 1327 lt 1662 Sound Test Temperature ohms 11157 lt 21604 lt 203333 NY Battery Voltage mV 10655 lt 14439 lt 16987 Alarm Relay Screen Type turn off system DC Supply Voltage adu 101 161 lt 176 test fail safe logic 12 Supply adu 78 lt 103 lt 129 keypad LED test Temperature adu 135 lt 175 lt 244 keypad KEY test Battery Voltage adu 138 lt 187 lt 220 BATTERY Main System SW SUNSCRAA Secondary Processor SW SSPR2RAA Main Service Menu For each parameter there are one or more service screens that display operating values and tests that are applicable to the parameter type Refer to the following paragraphs for information about each parameter At the conclusion of the tests select go to service menu at the top of the screen to return to the Service Menu main screen 4 18 4 7 1 SpO2 Tests 1 Disconnect all sensor cables from the SpO2 Parameter and ensure that the SpO2 parameter is listed within the main Service menu 2 From the Service Menu Turn and press the rotor to select the SpO2 service parameter The SpO2 service menu should appear with the SpO2 STATUS displaying SENSOR Disconnected and the SPO2 MESSAGES display empty Example shown below go to service menu q Parameter Fatal Error decimal
57. HC3 5 qm 74HC161 Ma fi ii 74HC390 oy vec q 74HC00 PSDI Buer 0413 Lee ein o m l ENFOGHO 14 M a F 40NO 74HC390 s U33 Qm ru e 2 74HC00 Bl eockao ll oc QA 3 gt LK ECG _LPF Ze qa t 12 3 U35 12K 2 V 1 e i pa RESET gt 13 ott cLockeo oli AG CLOCKAD QB clock RcO P P5DI 7 8 T ResET 0 Up e eo U o Vas U35 A Heer oi ldocko o LoADo wolt ta PSDI Vac al U25 2 7 Vas 5 awas r I oe Vas DIRE e av RESET QD ENABLE T GN EN ECG100 9 i A See U25 AG Vac PSDI z pn y PSDI AG Km C59 d C60 AG 74HC0d T nm Poet 6 M 4 74HC393 E aV 14l voc q We al Jee aM D U35 e Maoko alt U28 old 5 OLK RESP DEMOD Vae Lu acli 2 5 2 6 RESET oi a da e cnn U34 od Sireseto dl EN_RESPCLK ach2 Lon QHHS gt CLK RESP MOD Vac Schematic ECG Board P N 315589 4 of 5 page 5 15 16 Isolation Barrier SW P RAW 0 9 C12 PN T 100N irs cna AUTO Via e o ei L2 M e e l 32 U18 C65 l 015 LP2986IMX50 E DSS A 100N 190UF L SI 10U0 100N T UB E wues be D Vac Vac wm Vac R68 9 5 fi Vas CR2 15K0 Ki P Vs RB160L 40 1 4070 DG L1 Jee PSDI 100N SK1 Vas 1 em 2 um E 5V Sa 5 Voc 3 R9 8 T
58. PRO 1000 Monitor for the First Time 4 3 4 2 1 Unpacking and Preparation for Installation eee 4 3 4 2 2 Set the Date and un CN 4 5 4 2 3 Parameter Level Functional Testng 4 6 4 3 Periodic Ee 4 7 23 1 AS ROI oi a 4 7 4 3 1 1 Integrity of Cuffs and Hoses e 4 7 4 3 1 2 External DC Supply and Battery 4 7 4 3 1 3 Cleaning of Accessories cee eteseeneedeeesneedeeeeteeteeeeneneee 4 7 4 3 1 4 Long Term Storage E 4 8 2 3 2 Annual POCO AUTOS TEE 4 8 4 4 Care of Storage Batteries sese 4 9 4 4 1 Procedures for First Use sese 4 9 A A eli ile 4 9 4 5 Safety Resistance Testing 4 12 4 6 Alarm Code Interpretation rnnr enreennnn nnna 4 14 EE M PEE ums me em 4 14 76 2 Hardware EOS nai 4 15 16 3 T aramelerEall feS palle 4 15 463 ECG RESP ENOS 4 12i ndo pl oi ndo pal ont mab post pab bo oid ode nds 4 15 4 6 3 2 NIBP Messages 4 15 4 6 3 3 Temperature Messages ui 4 16 4 6 3 4 SpO2 Messages ii 4 16 4 7 Service Mode Operatnon nt ttrteennn nenna 4 16 A SPOZ EE 4 19 41 2 NIBP TT 4 20 2 62 WLC A EN 4 21 4 7 2 2 NIBP Calibration Checkout 4 23 4 7 2 3 Pressure Recalibration eee eee 4 24 4 1244 D0yerpressure NO EE 4 25 ENER 4 27 27 AAT GMP RR 4 28 Re 4 30 4 16 Battery Tests eege 4 31 Ad kest Failsate e TEE 4 32 4 7 8 Keypad LED TES aci id EE 4 33 4 7 9 Keypad Key EE 4 33 AF NO SUING OSI E E 4 33 4 7 11 Turn off the SM labile baila bage 4 33 4 8 Service H EE 4 33 Appendix A
59. PSAI 220p T 100P ee V V PSAI a MAO R59 AG AG INOA V Vas OPO z Wa x 10K0 RM ci y R53 R78 LEN 4 77 INZA OUTA y e PN 8 Mag E us e M e e 14 TINA om 33K2 5 ECGI EX CG5 90L Bl e ME a A E 11 z 1008 ME Uh a 04 C19 U20 AN E M 332 T 220P FT 100P e NB 1 a PSAI Dip op Vag AG Vac ai R46 Vas OPA4340 R52 R79 NE R44 R45 200K so F 200K 200K L CG5 90L 499R 332K 9 e Vas mE er 11 E i AE L C20 PAN V 100P AG Vac Vac Vas Maintain 0 060 in clearance to ground plane in this area P5AI PSAI MAX399 4 m wu ed men VREF 5 NIA 8 R69 7 LA o sn OUTA dn e 6 Lisa omg lt Fo 1 1 13 AD AE m dq S T Vie ws A 4 R74 Utd 301K R10 1K00 181 LSO Schematic ECG Board P N 315589 1 of 5 page 5 9 10 ECG1 e bd C24 PN Se Jon VREF PSA my NO C66 Fe 25K5 1N00 61K9 OPA440 100N P5AI PSAI R96 OPM340 AE Vab C52 Si 34K0 C25 DE a ANL R84 R57 gt Mm TN Gw ES Ee Lo R19 R21 sl DKA Ai JE 11 2 c aoli R58 R97 R99 UNNNG MAX7401 R16 ROB 14 2066 100K U2 BE KS 2 DI 9 E a 20K5 69K8 P da Di Vas U3 4 L 047 C51 Ue H o Bok white ve T 40N0 2210 VREF 10NO
60. RY Sa ua 10 minutes remaining in battery life Message appears in lt 1 minute remaining in battery life PARTI ON SE Monitor may shut down anytime alarm message field after 45 60 seconds Message appears in Upon loss of AC power the AC FAIL lt 00 30 alarm message field internal battery is engaged with BATTERY and procedural less than 30 minutes of life but alarm sounds more than 10 minutes remaining CHECK COOLING FAN Message appears in Monitor s internal temperature is the alarm message too high Cooling fan may be field blocked or inoperative Message appears in Upon loss of AC power the AC FAIL lt 00 10 alarm message field internal battery is engaged with BATTERY and crisis alarm less than 10 minutes of life sounds remaining Unapproved battery engaged 4 10 Table 4 2 Battery Troubleshooting Probable Cause Remed Remedy Battery inoperative Battery not fully Charge and discharge battery up or does not last very charged to three times for optimum long performance storage or nonuse connector is properly seated Battery charged for When charging battery for first only a short period Improper procedure for time charger may indicate of time before charging battery for first prematurely that charging is indicating full time use completed Discharge battery and charge repeat charging procedure Charge at basic room temperature of 59 F 16 C to 86 F 30 C Slowly bring battery to
61. SW SSPR2RAA Battery Power Supply menu 1 Battery Health the Monitor s software approximates the true status of the battery s health The value indicated is displayed as both a number in percentage and as an icon on the bottom left area of the display 2 External Supply available True indicates a source other than the internal battery is providing power for the monitor and a source to charge the internal battery 3 External Supply Sufficient to Charge If the voltage from the external supply is greater than that of the internal battery the monitor will display the results as TRUE False will result if either the voltage is equal to or lower than the power available from the internal battery 4 Charge Type Fast or Slow 5 Battery Failed Any result other than FALSE indicates that the internal battery has suffered a failure and should be investigated 4 31 6 Charger Supply Enabled Should always be TRUE as the monitor consistently attempts to keep the battery at its fullest capacity A FALSE indicates the battery may be faulty or not installed or the charge circuit may have failed Also if no external source of power is available the monitor will register a FALSE result 4 7 7 Test Failsafe Logic 1 From the Service Menu turn the rotor to select test fail safe logic A dialogue box will appear 2 CAUTION This will cause the system to freeze for approx 2 seconds then enter fail safe mode Continue Answ
62. Temperature F 91 1 Temperature C 32 8 Lower Probe Disconnected Resistance Ohms sete Temperature F Gees Temperature C ss Top probe warmer ON Bottom probe warmer OFF BATTERY Temperature Service Menu 4 28 Connect both the Oral and Rectal Temp probes to their respective connections reference the graphic below Perform the following test to verify the integrity of the temperature parameter e Verify top probe IN OUT e Verify top probe warmer ON Observe that the temperature reading rises to 105 0 F e Verify top probe warmer OFF Observe that the temperature reading drops slowly e Verify bottom probe IN OUT e Verify bottom probe warmer ON Observe that the temperature reading rises to 105 0 F e Verify bottom probe warmer OFF Observe the temperature reading drops slowly Oral Probe Holster Probe Cover Storage Rectal Probe Holster Oral Temp Connector Rectal Temp Connector 4 29 4 7 5 RECORDER tests if fitted This is a vertical text printer 1 Ensure that paper has been loaded into the A a Recorder Parameter and you are presently in the 1 2 3 Service Mode 12345678901 23 d5678901 23456789012 2 From the Service Menu Turn and press the rotor to a ee select the RECORDER test option Turn and press 50 23456789 i i 60 lt gt WABCDE the rotor to choose the 3 waveforms option Verify Mo APR OK INNO that all printouts are of ev
63. U S A All rights reserved United States Critikon L L C 4502 Woodland Corporate Boulevard Tampa FL 33614 EU Representative GE Medical Systems Information Technologies GmbH Munzinger Strasse Freiburg Germany TABLE OF CONTENTS SECTION 1 INTRODUCTION 1 1 CODE EE 1 1 1 2 META erranera oi oui a a a dou el pa a ou oui pa boul pa boul pa e pon 1 2 1 3 Service Policy E 1 2 1 3 1 Extended VV T s lt aL 1 2 n e pepe heel bea eee 1 2 A R 1 3 1 3 4 ee LEE 1 4 16950 Repair FANS beet EE 1 4 1 3 6 Replacement Accessories puse dle ia 1 5 1 4 Product RT d Le BEE 1 5 1 4 1 General DeScFIDIOFi od eee eee 1 5 14 2 Storage EE 1 6 Table 1 ee te EE 1 7 eR SECTION 2 PRODUCT DESCRIPTION 2 1 Introduction serene E OL 2 3 2 2 Product Configurations es oet it ts d cd citi 2 3 2 2 Controls Indicators and Connechors eee 2 3 2 3 1 PRO Monitor Rear Panel Connections eee eee eee 2 4 2 3 2 Front Panel Controls and Indicators 2 5 2 4 Host Port Connector rear panell sss 2 7 2 4 1 Tai Ts lu 2 7 2 9 Compatible PANS seten ee AS UA AA 2 8 2 6 SEELEN E A EA A A AE 2 9 2 6 1 Power Requirements eee eee 2 9 2 6 2 Environmental ee 2 9 E IAL Tae E 2 10 ZA Sele br 2 10 2 0 RZ lei F da AA AA AA 2 10 KE EE 2 11 PA OT E EE 2 12 SSeS SECTION 3 PRINCIPLES OF OPERATION 3 1 e reelle EE 3 3 3 2 Overall Principle Of Operation tn nnrrnnnnnnnrrtneen
64. agraph 4 7 2 2 to confirm the calibration setting 4 7 2 4 Overpressure Tests CAUTION Calibration equipment should always be kept dry and free of particulate matter Moisture or foreign substances introduced to the pneumatic system will likely cause damage to the monitor and or the accessories Using the calibration kit part number 320 246 an adult cuff and air hose and a manometer set up the equipment as shown in Figure 4 1 Connect the hose to the NIBP Parameter Make sure all fittings are tight and that valve on inflation bulb is closed tightly From the Service Menu Turn and press the rotor to select the NIBP service parameter Turn and press the rotor to select pneumatic reset 4 25 4 26 10 11 12 13 Turn and press the rotor to select valve close Observe that the menu displays Overpressure Selected Adult If not turn and press the rotor to select adult ovp select Turn and press the rotor to select inflate on The pump should begin to inflate the system Watch the pressure indication increase on the manometer and observe that the pump is shut down and the pressure is released when the manometer indicates in the range of 300 to 330 mmHg Observe that the menu displays Service Error None Turn and press the rotor to select pneumatic reset Turn and press the rotor to select valve close Turn and press the rotor to select neo ovp select Observe that the menu displays Overpressure Selected Neo
65. ain Board via opto couplers The couplers provide for patient isolation as well as serial data interface The Main Board routes the data to the appropriate displays and or printer A reset signal to the SPO2 PWA is also provided for power up sequencing 3 2 2 Cuff Blood Pressure BP and Pulse When the cuff and hose are attached to the PRO monitor and Non Invasive Blood Pressure NIBP determination is initiated the pump inflates the cuff Pressure transducers PT1 and PT2 monitor pressure information The pneumatic manifold 3 3 3 4 has two valves which are used to deflate the cuff Valve control is through the Main Board Determinations are made for the systolic BP diastolic BP pulse rate and Mean Arterial Pressure MAP The results are displayed on the front panel Liquid Crystal Display LCD If an over inflation condition occurs it is detected by PT2 resulting in assertion of OVERPRESSURE The OVERPRESSURE signal is routed to the PVM to release the air pressure The Main Board also generates an alarm condition with the speaker sounding and a message in the LCD 3 2 3 Alaris Oral and Rectal Thermometry The PRO monitor has two temperature channels one each for oral and rectal determinations When a TEMPERATURE probe is attached to the temperature connector and patient TEMP input is routed to the Main Board This input represents the temperature to be measured The Main Board converts the TEMP signal to a digital signal Durin
66. and carefully bleed off pressure until the manometer indicates 200 mmHg Observe that the values of PT1 Pressure and PT2 Pressure on the menu indicate within 1 mmHg of the pressure shown on the manometer Verify the system linearity by repeating steps 8 amp 9 using manometer readings of 250 mmHg 150 mmHg and 50 mmHg Observe that the PT1 and PT2 Pressures are within 3 mmHg of manometer readings for each of these pressure indications 4 7 2 3 Pressure Recalibration CAUTION Calibration equipment should always be kept dry and free of particulate matter Moisture or foreign substances introduced to the pneumatic system will likely cause damage to the monitor and or the accessories Always enter Service Mode with the password as described in paragraph 4 7 before attempting to recalibrate equipment Using the calibration kit part number 320 246 an adult cuff and air hose and a manometer set up the equipment as shown in Figure 4 2 Do not connect the pneumatic hose to the NIBP port yet From the Service Menu Turn and press the rotor to select the NIBP service parameter PT1 Pressure mmHg 22H pneumatic reset ETI Talan LC ETC PT2 Pressure mmHg EE 17 PT2 Zero adu PT1 Pressure mmHg 0 ero adu PT2 Pressure Turn and press the rotor to select pneumatic reset Adult 2 2420 lt 2702 lt 3032 lt 0 lt 6 Turn and press the rotor to neo ovp select select valve close lt 3
67. basic room temperature before recharging Batteries cannot be fully charged unless internal temperatures between 57 F 15 C and 109 F 40 C Charging battery in unusually cold or hot temperatures Battery will not charge 4 5 SAFETY RESISTANCE TESTING Using a safety analyzer Dynatech Nevada Model 235A or equivalent check the ground resistance of the PRO 1000 Monitor refer to the Rear View graphic for locations of test points Earth To Secondary Continuity Verify that the resistance between the AC Mains ground pole and the External DC connector ground is less than or equal to 10 AC Mains Leakage Normal Polarity For the following tests 260 VAC is applied at the Monitors AC Mains input in normal polarity No Fault Verify that the leakage from the Line pole to the Ground pole is less than or equal to 500 LA Open Ground Disconnect the Monitor s ground lead from earth ground for the duration of this test only and verify that the leakage from the Line pole to the Ground pole is less than or equal to 500 uA Open Neutral Open the Monitor s neutral lead for this test only and verify that the leakage from the Line pole to the Neutral pole is less than or equal to 500 uA AC Mains Leakage Reverse Polarity For the following tests 260 VAC is applied at the Monitors AC Mains input in reverse polarity inputs to Line pole and Neutral pole reversed No Fault Verify that the leakage from the Line pol
68. ble Part Code SOFT CUF Cuff Infant 2500 SOFT CUF Cuff Child 2501 SOFT CUF Cuff Small Adult 2502 SOFT CUF Cuff Adult 2503 SOFT CUF Cuff Large Adult 2504 SOFT CUF Cuff Thigh 2505 SOFT CUF Cuff Neonatal type 1 2521 SOFT CUF Cuff Neonatal type 2 2422 SOFT CUF Cuff Neonatal type 3 2523 SOFT CUF Cuff Neonatal type 4 2524 SOFT CUF Cuff Neonatal type 5 2525 DURA CUF Cuff Infant 2783 DURA CUF Cuff Child 2781 DURA CUF Cuff Small Adult 2779 DURA CUF Cuff Adult 2774 DURA CUF Cuff Large Adult 2791 DURA CUF Cuff Thigh 2796 DURA CUF Cuff Assortment cuff pack 2699 DURA CUF Cuff Child pack 2697 CLASSIC CUF Cuff Infant 2618 CLASSIC CUF Cuff Child 2613 CLASSIC CUF Cuff Small Adult 2608 CLASSIC CUF Cuff Adult 2603 CLASSIC CUF Cuff Large Adult 2643 CLASSIC CUF Cuff Thigh 2648 CLASSIC CUF Cuff Neonatal type 1 2638 CLASSIC CUF Cuff Neonatal type 2 2633 CLASSIC CUF Cuff Neonatal type 3 2628 CLASSIC CUF Cuff Neonatal type 4 2623 CLASSIC CUF Cuff Neonatal type 5 2619 12 Foot approx 3 7 meters Long Adult Pediatric Hose 107365 24 Foot approx 7 3 meters Long Adult Pediatric Hose 107366 12 Foot approx 3 7 meters Long Neonatal Hose 107368 12 Foot approx 3 7 meters Long A P Hose Quick Disconn 107368 IVAC Oral Temperature Probe 088012 IVAC Rectal Temperature Probe 088013 IVAC Temperature Probe Covers 088015 DINAMAP
69. ca d Sg Sd Sd d Sd Sg ORO 3 28 8 S og 252 Se SE 8 S 58 g 8 sg 3 3 Sg 8 R28 3 le a la 33 BS 8 S SS 2 3V3D823 a a 3 a a od od od ai Gi Gi Gi 5 NF ol ol a a a Di ls ls ls Bx ala ls la 3 2 R33 a la lz le le ls le ls ls le le la E ls le l la la E S ls ls ls ls ls 15 15 15 15 1581515 xExE RRRR gt gt gt TTI S258882 Z ZRSSSRS z 24 BG ESI B BBSBSES duras a 5 3 S SERESSSS A vsssyn M A A 31 6 L Ad RO VSSSYNI ra M A KAPWR Ra M R390 LCD ca D 31 0 AA vuan A surmak Mi 49R9 R25 XTALIN ca lR IO e e A EXTCLK E 10M R155 10K Al wm Peo a 5 SWG A unc NW HDD gg 3V3D823 eee pm e See 3V3D SWE pcos M TWO E XLS R95 ee PB we NO PL12 A e i e FREEZE n s Kat R136__10K al e We ee E 4 915MHz BB IN HOST_TX2 1 2 L C171 R292 2K21 Ma o SMIKD ZE e swe m Rm EN SRESET gt 22pF Hu R138 igi M cecus TDOIDSDO m a EE m a TCK_DSCK gU R137 10K M es im R mai gan SS ioa MA OORI m RESET we O MOST 3V3D823 een cs por ME BE gt emm mmm ia ol AB Nei wa R378 a e e e BI voosyN 47uH BA vi ni l 3V3D823 SES Su M VSYNC c415 C3 C102 E H PORESET nn 10uF 100nF 10nF e e B4 SESE 16v LD2 R256 10K wem mp m 1 ES e 88 vopoe Pel R139 1K0 BT spkROUT PBI qu 20D BACKLIGHTIL R313 10K B8 Geck m ST a pN PCL B10 BURST He Bi EgseEG R140 10K ETE sd BUSREQ Ter Pt RESET e AKTS BURSTINH resa PR I2CSCL R141 Ar ER a bL a Mi si mae Yo bus eg PB FSARMEOM m n SS a c U12 semosi P SPI MOSI H w MPC823 PIS SPLOLK NIBP
70. d check them against the checklists enclosed within the accessory boxes If an accessory is missing or if an item is in a nonworking condition contact Critikon immediately It is recommended that all the packaging be retained in case the PRO Monitor must be returned for service in the future Descriptions of the items shown are listed on the pages that follow For symbol definitions refer to paragraph 2 3 2 of this section 2 3 2 3 1 PRO Monitor Rear Panel Connections do oo ud ds uy 7 Serial Number Manufacturer labeling Earth Ground safety test compatible Battery fuse 10A 250V Mains input Used to connect to AC power supply External DC Input 18 24 VDC only Main speaker opening Socket to secure removable rear cover see 10 DB9 connection used for Host Communication 0 o NO AA WN CO A DB15 used for Host Communication remote alarm 10 Removable rear protective cover 2 4 2 3 2 Front Panel Controls and Indicators GO STOP AUTO BP STAT OFF ON AC Mains DC operation 969 06 A SelectKnob Printer Door Printer Door Release Printer Paper Discharge Portal GO STOP Starts and stops any determination of noninvasive blood pressure AUTO BP STAT Dual function hardkey Starts and stops auto BP determinations by a single press and gives you access to change the NIBP cycle time Starts and stops stat determinations with a double press 5 minutes of continu
71. d uueje Jayjo woud suueje jur Jay o1uebolpleo s wiw peeds deems dsay sDunjes pooueApy syw jsnipw 9ZIS UJOJOAEM EWIOJBACM MAIA ezAjeue oj peo7 ELE dnjes JOJOJ S ZOAUS Pa as L1 N Hd UI a h 9 9 ao h A eb 9L 779 eiqeo soejday o eP J O 779 pejoeuuoosip josueg es nd 3507 senuoud wieje Jayjo po epod o MAL en OO OQ v woud suueje mur o ODO COQ wo voc J peeds deews oepje WEN II ejqeue yoayo 1009 ud ZOdS MalA Jeq yjybuajs eubis malA sDumes peoueApy Su ysnipy EWIOJSAC MAIA zods dnjas J0 00 S dgIN 9818S nn SR ee TT LU INOSUI PAST J Jd ul eInpooo noouur ejo ee p tno mosuy dung O p mnc ainssa1dienO ee p nc UOHEUIWIO SP ON ee TI senuoud were 1940 III M woud suueje qur penunuoo dgiN dnies ajeuosu pue oujeiped inpe 104 aues ou si Buas jinejep AJOJOe ou paijioads jou J ejeuoeuzN oujeiped2g inpe y A 1 P hh eee O JmhLqW aa pawn dnjos O h 1 A w A spuooes ul dis jo ujbue1 A Eee TL spwooesui oe G nl h TT 9 99 V snonunuoo dmes LLL Jh P sBumes Byuoo o 1 d 9 3d o jnojuud Key p1099 ee A AJ 3 9 epes ui diys jo buo DL D 93 0c peeds ueuo OC T T S 1 I EQh 9 k po
72. dition has no permanent effect on capacity Capacity loss due to self discharge is reversible and nickel metal hydride batteries can recover to full capacity by proper recharging For example cycling through repeated charge discharge cycles can restore a full capacity of a nickel metal hydride battery that was stored at room temperature for up to one year Long term storage at high temperatures can lead to deterioration of seals and separators and should be avoided 4 3 2 Annual Procedures Perform the test procedures described in paragraph 4 7 every twelve months or whenever the accuracy of any reading is in doubt 4 8 Note An internal 3 6V NiMh battery acts as an alarm backup and maintains the nonvolatile RAM memory when the Monitor is off or away from AC mains A system alarm message will be generated if backup battery replacement is required 4 4 CARE OF STORAGE BATTERIES The Monitor uses one nickel metal hydride NiMH storage battery The battery can be charged at any time without reducing the charging capacity 4 4 1 Procedures For First Use Follow these procedures to condition a new NiMH battery and optimize its performance The internal battery will automatically charge when the AC power supply is in use When the battery is charged for the first time the charger may indicate prematurely that charging is incomplete This is normal and can happen with all rechargeable batteries when first charged 4 4 2 Battery Charg
73. e password entry turn the rotor and press to select done 11 In the process of entering the Configuration Mode the PRO 1000 monitor will reset Successful entry into the Configuration Mode can be noted by the words CONFIGURATION MODE in red capital letters at the top center of the screen 12 Turn the rotor and press to select other system settings 13 Turn the rotor and press to select config settings The Options available within this menu are e Select Date Format Press the rotor to choose the order Month Day and Year appears e Select Time Format Press the rotor to choose either a 12 hour clock or a 24 hour clock e Adjust Date amp Time Press the Select Knob to enter the correct Date and Time After setting the date and the time make sure to press set new time and date to save e Language Press the rotor to choose a different language e Display Units Choose yes to display all units of measure e Display Limits Choose yes to display all alarm units e Reset all to Factory CAUTION resets all user set options to the factory defaults Yes enables e Send all defaults Choose this option sends all defaults to another connected PRO 1000 monitor through the Host Communications ports 4 2 3 Parameter Level Functional Testing After the initial configuration is complete perform functional testing of each of the parameters Using the accessories supplied with the PRO Monitor initialize the monitor in
74. e to the Ground pole is less than or equal to 500 LA Open Ground Disconnect the Monitor s ground lead from earth ground for the duration of this test only and verify that the leakage from the Line pole to the Ground pole is less than or equal to 500 uA Open Neutral Open the Monitor s Neutral lead for the duration of this test only and verify that the leakage from the Line pole to the Neutral pole is less than or equal to 500 uA 4 12 Host Communications Cover Removal is necessary to access the safety lug and battery fuse Phillips Screw 5 my doom og nV 7 7 La i i i m SC Battery Fuse Mount t 7 7 7 j Phillips Screw Mounting Lug AC Mains Input External DC Battery Fuse Ground Terminal Input Ground Protective Earth Safety Lug Pole is positive Rear View of Monitor with safety connection exposed 4 13 4 6 ALARM CODE INTERPRETATION Refer to Table 4 1 for information about procedural alarms that involve battery operation If any other alarms appear that are not listed in the paragraphs that follow record the error message and report the failure to Customer Support Refer to the Operation Manual for information about patient alarms and general procedural alarms 4 6 1 System Failures When a system failure is encountered the error code is displayed on the screen for five seconds and the system enters failsafe mode The error code is logged in the history
75. een removed Follow manufacturer s instructions for cleaning ECG lead wires and cable Compatible cleaning and disinfecting solutions are 4 7 Dishwashing detergents such as IVORY and JOY registered trademarks of Procter amp Gamble Corp or PALMOLIVE registered trademark of Colgate Palmolive Corp Chlorine bleach disinfectant 5 25 0 75 cup per gallon of water CAUTION Do not apply isopropyl alcohol to the Monitor some parts can become marred and cracked Isopropyl alcohol for accessories only Cidex Formula 7 registered trademark of Johnson amp Johnson Medical Products Inc or pHisoHex registered trademark of Winthrop Breon Laboratories Quaternary based germicidal detergents like VESTAL INSURANCE registered trademark of the Vestal Corp HI TOR PLUS registered trademark of the Huntington Corp or VIREX registered trademark of S C Johnson amp Son Corp For the above follow manufacturers recommendations for dilution rate and use These recommendations are not an endorsement of the manufacturers or of the effectiveness of these materials for cleaning or disinfecting 4 3 1 4 Long Term Storage If it becomes necessary to store the Monitor for an extended period of time remove all attached accessories Attach the original packing inserts and place the monitor into the original shipping container Generally long term storage of a nickel metal hydride battery in either a charged or discharged con
76. en EEN m 41K2 41K2 C180 C179 49K9 100nF 100nF N or or a Lis 100nF 100nF Dt ISOLATION BARRIER is me 2 ctis mus m pec 17 pavers e IDMGOUT 16 22nF e RDMGOUT VOD romcout__ 14 etet DKAMPIN romec 10 R326 elle sea RM 100K C165 DEST kant VODA e 2V5VREF mon per was LS VREFS R103 200R 29nF H Se e e T 093 C198 RESET TO SP ISO ee al sw o 20K 100pF 4u7 RESET OUT STOUT gt D ove Mx ga tes CR lad me C134 mm sara 135 TW Las E pou oue 196 E S 7 100nF C133 tuF E vone 30 MODE e eee ai L R104 1 om vo mico DACLOADI 2K0 qu cho mr H zem 132 DACDATA 33 DACCLK 2 DACCLK RESET ASIC RESET L R106 vue LO ug 28 ele Aa OXICHIP2 I gt C200 om vee SC 27 T VDD Aur Ar vos m6 wm ase ER BLM31B601S m 2 a lu 5 VODA 5vSPO2 e e e YAN e e Me VDD e T T C7 c76 VLED SP om d ka mur 100nF 100nF Dom 16v c95 Co4 C 220uF n 23R 25MHz dL e an tot er E L TAF ATUF a A 16V 16V E RESET OUT VDDA 2 R279 T o e 10R R67 L C176 C153 4TuF 10nF ORO 16V gt SE d a Schematic Main Board P N 315592 11 of 12 Page 5 39 40 ANALOG OUTPUT C67 100nF 5VD C72 5VD ae mer c73 U3 MAX504
77. en tone and all pixels are 80 PORSTUVWXY 0 Z X abe present 100 defghijklm 110 noparsturw 3 Select the 6 25mm S option li 140 Kag are e 4 Allow for the paper to spool out a 12 inch printed E GE section 170 ee tais 80 pi tiski 190 42 A AAAARC 5 Select Vertical Text test Verify that the printed text 200 EEI iioN i i 210 06006x0000 is legible and evenly spaced EE 230 ecad eeiiti 240 amp n con 250 d jbg 6 Select Horizontal Text test Verify that the printed text is legible and evenly spaced Vertical Text printout Horizontal Print 1 waveforms Printer at 6 25 mm sec Test 1 9 waveform 2 8 10 1 0cm height 3 7 11 46 12 5 Horizontal Text Sample 6 25 mm sec 1 waveform chosen print test 4 30 4 7 6 Battery Tests From within the Service Menu battery status information is displayed on the right upper 1 4th of the display a POWER SUPPLY BATTERY DISPLAYS a TBattery Health 2External Supply available 5 Battery Failed SMP G Charger supply Enabled SP NIBP SpO2 DC Supply Voltage mV 15036 223761 lt 25942 duty 12 Supply mV 1005 lt 1327 lt 1662 Temperature ohms 11157 lt 21604 lt 203333 A2 Battery Voltage mV 10655 lt 14439 lt 16987 wa Z stem DC Supply Voltage adu ic 12 Supply adu st Temperature adu est Battery Voltage adu Main System SW SUNSCRAA Secondary Processor
78. er yes 2 After two seconds the system will freeze and an alarm will sound Recycle the system power using the on off button To return to the Service Mode repeat the procedures as described in section 4 7 4 32 4 7 8 Keypad LED Test 1 From the Service Menu rotate and press the rotor to select keypad LED test Observe that each of the keys on the PRO 1000 monitor face illuminate one key at a time With the exception of the ON OFF key observe whether any of the keys fail to illuminate AUTO BP OFF ON 2 After all keys have been tested press the rotor again to stop the test 4 7 9 Keypad KEY Test DINAMAP PRO 1000 Va Ox oo o standby Verify that the keypad LEDs are illuminated except Main Trend and Standby 4 7 10 Sound Test Verify that the Monitor produces tones of various pitches when this option is selected 4 7 11 Turn off system Selection of this menu item will bring up a dialogue window requesting you to confirm your decision CAUTION This will turn the system off Are you sure you want to do this Selecting yes will power off the monitor no will return you to the Service Menu 4 8 SERVICE MODE EXIT To exit the service mode and power off the Monitor locate and press the key marked ON OFF at the front of the Monitor 4 33 This page intentionally left blank 4 34 TEST RECORD Appendix A Model Serial Step Description Min Max Actual
79. erify low rate alarm at 45 BPM Heart Rate reading at 50 BPM SpO 46 54 Heart Rate reading at 120 BPM SpO 116 124 Heart Rate reading at 80 BPM SpO 76 84 NIBP Tests Function test in Monitor Mode Initial cuff inflation Adult cuff 161 195 Heart Rate reading 80 BPM NIBP 76 84 Inflate Deflate cycle time 120 seconds Initial cuff inflation Neonatal cuff 94 151 4 35 Appendix A continued Temperature Test service or monitor mode requires Alaris Temp Simulator Measured top Temp in F 98 6 nominal 98 4 98 8 Measured top Temp in F 80 2 nominal 79 9 80 5 Measured top Temp in F 107 8 nominal 107 5 108 1 Measured bottom Temp in F 107 8 nominal 107 5 108 1 Measured bottom Temp in F 80 2 nominal 79 9 80 5 Measured bottom Temp in F 98 6 nominal 98 4 98 8 Front Panel Key Tests Perform in Service Mode 4 7 9 Verify appropriate responses to keypresses Battery System Test Perform in Monitor Mode Verify AC Mains indicator Remove AC Verify uninterrupted battery operation Verify Battery LED is lit Safety Testing External DC to GND Resistance m_ 0 SpO2 leakage pA 0 150 Temp Leakage uA 0 50 d ECG Leakage pA 0 50 Normal no fault leakage pA 0 500 Normal open ground leakage pA
80. ery Charging tot GOA i totae utut 4 9 4 5 Safety Resistance Testing sese eee eee eee eee 4 12 4 6 Alarm Code Interpretation BEE 4 14 BAS System Tallites iS e ne em n en ntes 4 14 4 6 2 Hardware EROS carita I AAA A a eka kdk kaka vi kat 4 15 4 6 3 e a AAA A NERE NICEA 4 15 4 6 3 1 ECG RESP TEMP Errors 00 4 15 4 6 3 2 NIBP M SSAG S EE 4 15 4 6 3 3 Temperature Messages tii III A 4 16 2 5 3 4 5pO2 Messages ii A da 4 16 4 7 service Mode Operan art 4 16 LAS ME POZOS ir TA AENA AAA ARAS RARA AL 4 19 T 2 NIBP TESIS it A A nat A odes 4 20 AE EE 4 21 4 7 2 2 NIBP Calibration Check ocio nente te tenta 4 23 4 7 2 3 Pressure Recalibration mener nnne 4 24 TT ANIOS UT TeSt AAA 4 25 AO EE 4 27 4 7 4 Temp RE 4 28 4 7 5 Recorder TESIS ee 4 30 4 76 Battery TesiS nc 4 31 4T WS ANS Ae e E 4 32 2565 e LED Test ene l Alo ma ka pa lo ma al a Ak pa ro ma A to ends 4 33 4 7 9 Keypad Key Test 4 33 MN AAA A E LEPRE LEE 4 33 ATAR Tum off the Systems sa ele belle load so 4 33 4 8 Service Mode EXIL 4 33 Chapter 4 Appendices Ure EE Appendix A Monitor Configuration Log RE Appendix B SECTION 5 ASSEMBLY DRAWINGS amp ELECTRICAL SCHEMATICS Assembly Drawings Monitor Assembly amp Disassembly Front 398 EE 5 1 2 gie p MM A CEDERE 5 3 4 icc Os bo DEE 5 5 6 Rear EE 5 7 8 Electrical Schematics ECG Board 3195989 EE 5 9 through 5 18 Main Se T e e N Lees lella lia 5 19 through 5 42 Power Supply Board 21803 5
81. g the conversion the Main Board determines the patient temperature using a predictive or monitor mode algorithm depending on user setup The patient temperature is distributed as a digital signal to the LCD display or printer The PRO monitor has a probe check feature to help prevent erroneous temperature readings stemming from using the wrong probe for determinations i e oral probe for rectal determination and vice versa 3 2 4 ECG with Heart Rate and Respiration The ECG parameter provides electrocardiographic waveform in a 3 electrode configuration The 3 electrode configuration derives waveforms for leads I II or III It includes a waveform cascade feature and can display one waveform as the primary lead Breath rate is calculated by measuring the thoracic impedance between two electrodes As the patient breathes the movement of the chest changes the measured impedance to produce the respiration rate 3 2 5 Host Communication Ports There are two Host Comm Ports provided on the back panel of the PRO monitor The DB9 connector provides 5V 600mA Max 12V 400mA Max and two channels of TTL compatible communications The DB15 connector provides 5V 600mA Max 12V 250mA Max Remote Alarm Signal and a TLL RS 232 selectable communication channel Note When the DB15 port is enabled channel 2 of the DB9 port is disabled The Host Comm Ports are used to interface the PRO monitor with other electronic devices a central nurse s
82. gh heart rate lt 10 s per AAMI EC13 1992 Low heart rate lt 10 s per AAMI EC13 1992 Cardiac standstill lt 10 s per AAMI EC13 1992 Tachycardia waveforms lt 10 s per AAMI EC13 1992 2 12 SECTION 3 PRINCIPLES OF OPERATION CONTENTS 3 1 MTFOGUCHION PHP 3 3 3 2 Overall Principles Of Operation iia 3 3 A t dw eu GE SOL Rx EROR EE pp ana ye ka mi 3 3 3 2 2 Cuff Blood Pressure BP and Pulse sese 3 3 3 2 3 Alaris Oral and Rectal Thermometry 3 4 3 2 4 ECG with Heart Rate and Respriation 3 4 3 2 5 Host Communication Pois ai wk kaa init 3 4 3 3 Functional Descriptio scsi 3 5 A EAE E 3 5 3 3 2 Mains Converter Module AEN 3 6 3 9 3 Cisco is 3 6 3 3 4 Keyboard A m 3 7 339 EGG PWA e Da ion ORIO to AIA tenn Se 3 8 3 3 6 Pneumatic GODFOl o er kte e mer ne ene tne n a n e ee n are ok DA dE 3 8 EE A ipa ER m Rem Siae 3 9 E Printer OPUONAL EE 3 10 LIST OF FIGURES 3 1 General System Diagram i 3 11 12 3 1 3 2 This page intentionally left blank SECTION 3 PRINCIPLES OF OPERATION 3 1 INTRODUCTION This section provides overall theory of operation and functional description of the DINAMAP PRO 1000 hereinafter referred to as PRO monitor The PRO monitor has Blood Pressure BP Pulse Temperature SPO2 and ECG monitoring capability The printer module is optional 3 2 OVERALL PRINCIPLES OF OPERATION The following paragraphs
83. hanges with saturation INDICATOR Volume selectable from 0 off to 9 WAVEFORMS Pulse plethysmograph waveform on LCD gain compensated SENSOR CONNECT The monitor detects the attachment or disconnection of a sensor DISCONNECT FROM from the patient within 15 seconds PATIENT H SENSOR CONNECT The monitor detects the attachment or disconnection of a sensor DISCONNECT FROM Gre MONITOR from the Monitor within 5 seconds PULSE DETECTION The monitor detects a pulse or enters a no signal state within 15 seconds of being attached to the patient LOSS OF PULSE The monitor detects loss of pulse from patient and enters a no signal state within 10 seconds NELLCOR SENSORS ADULT ACCURACY 70 100 ACCURACY OXICLIQ P pediatric sensor 2 5 digits OXICLIQ I infant sensor 2 5 digits OXICLIQ N neonatal adult sensor 2 5 digits OXICLIQ A adult sensor 2 5 digits OXIBAND pediatric infant sensor 3 0 digits OXIBAND adult neonatal sensor 3 0 digits DUR Y ear clip 3 5 digits REFLECTANCE sensor 3 5 digits DURASENSOR adult 3 5 digits PEDI CHECK pediatric spot check clip 3 5 digits OXISENSOR II D 20 pediatric sensor 2 0 digits OXISENSOR R 15 adult nasal sensor 3 5 digits OXISENSOR II D 25 adult sensor 2 0 digits OXISENSOR II N 25 neonatal adult sensor 2 0 digits OXISENSOR II I 20 infant sensor 2 0 digits OXISENSOR II D 25L adult sensor long cable 2 0 digits Neonatal Accurac
84. ing NIBP Nellcor Pulse oximetry SpO2 3 lead ECG with respirations 2 channel thermal recorder Alaris Oral and Rectal thermometry The PRO 1000 Monitor series uses a TFT active matrix color liquid display The 10 4 diagonal display area contains 640 x 480 pixels and can display 262 144 colors simultaneously 1 5 The LCD has the following specific characteristics These are neither defects nor malfunctions e The ambient temperature may affect the display condition of the LCD e The LCD uses replaceable cold cathode tubes for backlighting Optical characteristics like luminance or uniformity will change during time e Uneven brightness and or small spots may be noticed depending on different display patterns Other DINAMAP PRO 1000 features include e The ability to uses industry standard accessories e Remote alarm capability e An intuitive graphical user interface with a simple Select Knob that moves the user through menus in a logical and easy to understood format e Five single function keys for quick access to Alarm Silence Record Freeze NIBP Start Stop and STAT NIBP 1 4 2 Storage Batteries The PRO 1000 Monitor operates from AC mains power an external DC power supply or from the internal Nickel Metal Hydride storage battery When external DC power becomes available the system rapidly switches from battery power to external power Table 1 1 Specifications Mechanical Monitor Weight Enviro
85. ing The Monitor charges the NiMH battery whenever the AC power supply is in use The Monitor automatically senses if the battery needs recharging Battery charging will continue as long as the Monitor is connected to the AC power supply even when the Monitor is turned off e Batteries should be charged before first use or after prolonged periods of storage e The battery should be charged before use as a charged battery loses some charge when left in storage e The battery should be charged at room temperature 59 F 86 F 16 C 30 C e Itis normal for the battery to become warm during charging or after use e Batteries can be charged or topped off at any time It is not necessary to wait until they are fully discharged e lf the monitor is idle for extended periods it should be fully charged once a month to ensure optimum performance 4 9 Table 4 1 Battery Alarms Alarm Type Indication ProbableCause BATT WRONG TYPE REMOVE Message appears in or INTERNAL BATT alarm message field WRONG TYPE REMOVE BATT CHECKING Deeg or INTERNAL BATT Message appears in Noncommunicating battery CHECKING alarm message field engaged INTERNAL BATT FAIL Message appears in Internal battery loses voltage or REPLACE NOW alarm message field communication or is not accepting proper charge Message appears in lt 00 30 BATTERY alarm message field 30 minutes remaining in battery life and in SelectBox lt 00 10 BATTE
86. ip s eM v s6unjas wa sAS sayo SECTION 5 ASSEMBLY DRAWINGS amp ELECTRICAL SCHEMATICS Assembly Drawings Monitor Assembly amp Disassembly FONE CaSO EE 5 1 2 EO e EE E 5 3 4 PRS AI ey SO EE 5 5 6 Reahtase EE 5 7 8 Electrical Schematics ECG Board 315589 2 vov av qd quove quu 5 9 through 5 18 EB e tre EN E EE 5 19 through 5 42 Power Supply Board 315599 sss 5 43 through 5 52 A ea aia ee 5 53 54 Probe Wammer 5 55 56 Front Case 705110 Rotor Knob 733152 Fascia Key Pad english 701502 Foot Polyurethane 732175 Pneumatic hose connects to the bottom terminal of NIBP socket Mo of WD Alaris Temperature Connectors 608531 Temp Probe Housing 705108 Cable Assy Defib to Main Board 316701 Cable Assy ECG to Main Board 316680 PVC Tubing Pneumatic Tubing NIBP 740185 Assembly Drawing Nellcor SpO2 Connector 608530 Front Case 1 of 2 page 5 1 2 Main Board 315592 ECG Backplane Front Case 705110 NARA Protective Lens 705120 SOX TR Display TFT Color 614235 s si Di a 223 3 ip H e DA e Ju oo E EOS RENE Q av en 7 fos gt LE aoc
87. isplayed From the ECG menu select turn parameter off SH e K qoc D 4 3 PERIODIC MAINTENANCE 4 3 1 As Required Perform the following maintenance procedures as required 4 3 1 1 Integrity of Hoses and Cuffs When the pneumatic integrity of any NIBP cuff and hose is in doubt replace the cuff and hose and discard the questionable accessories 4 3 1 2 Cleaning of Monitor CAUTION Do not clean Monitor with isopropyl alcohol or other solvents Wipe the exterior of the Monitor with a cloth slightly dampened with mild detergent or normal hospital bactericides Use dishwashing detergents such as IVORY and JOY registered trademarks of Procter amp Gamble Corp or PALMOLIVE registered trademark of Colgate Palmolive Corp Do not immerse unit 4 3 1 3 Cleaning of Accessories Clean the adult cuffs supplied for use with the monitor by hand washing in warm soapy water However take care to avoid entry of water into the cuff and hoses at any time If water enters the cuff dry the cuff by passing air through it The neonatal cuffs are for single patient use discard if they become soiled Clean cuffs and hoses with a cloth slightly dampened with mild detergent Do not immerse hoses Do not immerse cuffs without prior application of cuff hose caps Clean SpO2 sensor surface before and after each patient use Clean SpO2 sensor with a cloth slightly dampened with a mild detergent Wipe SpO2 sensor to ensure all detergent residue has b
88. it The Random Access Memory RAM is comprised of a SRAM chip and two SDRAM chips The 512 Kbytes of battery backed SRAM is provided to store trend data and to provide space for working algorithms and is accessed on bits D 0 15 of the data bus The two 64 Mbit SDRAM chips are set up to form a 32 bit data bus on bits D 31 0 that is used for running the program and working memory This gives 16Mbytes of memory with an access time of less that 20ns The program is loaded including the boot code from the 16 bit FLASH Read Only Memory ROM The Electronically Erasable Programmable Read Only Memory EEPROM is an 8 bit chip that is used to store the calibration and other setting variables that have to be maintained in the event of a complete power failure If a hardware or software error causes a malfunction its watchdog will provide an internal and external RESET L signal The FAILSAFE controller will cause the FAILSAFE L signal to go low This signal passes to the Secondary Processor which will disable the Primary Processor s power supplies thus turning it off FAILSAFE L also passes to the PAL NIBP control logic which will dump the cuff pressure The system is left in a safe state but is remains on to enable the Secondary Alarm to stay active The Primary Processor monitors the activity of the secondary via its handshaking communications If the Secondary fails the Primary can assert the FAILSAFE line by overriding the FAILSAFE cont
89. log General system error codes are listed below If any other SY or similar code appears report it to Customer Support Explanation Possible Cause s SY 16 Power fail signal Circuit that drives POWERFAIL signal is defective true time is too long Software detected 1 Go to service mode to observe current values SY 19 power supply out of for power supplies limits 2 Digital to analog converter is defective Checksum of code 1 Defective flash memory chip SY 20 in flash memory is 2 Error during programming of flash memory not valid Real time clock 1 RTC chip running too slow or not at all SY 43 running too slow 2 System clock running too fast 1 Noise getting into RTC chip crystal input 2 Defective or wrong crystal on clock chip 3 System clock running too slow Real time clock SE funning too fast 4 14 4 6 2 Hardware Errors These error codes which are common to all parameters indicate some internal self check test of the hardware has failed and service is required 8232 HW ROM checksum failure 8242 HW Isolation interface comm failure 8252 HW Secondary processor not compatible 4 6 3 Parameter Failures 4 6 3 1 ECG TEMP Errors Fail Code ECG board data rate error ECG board cmd queue overrun 4 6 3 2 NIBP Messages Calibration of a transducer channel s span failed Auto zero failure 180 Excessive leakage 4 15 Fail Code Description 190 Commands out of sequence
90. loss rate 7 After about 60 seconds the pressure is released and the menu should display Leak Test Status Passed and the Leak Test Results indication should be a value less than 6 Service Error None should continue to display 8 Ifthe menu displays Leak Test Failed continue to step 9 9 Using the calibration kit part number 320 246 an adult cuff and air hose and a manometer set up the equipment as shown in Figure 4 2 i i Y ADAPTER L J CALIBRATION KIT Figure 4 2 Leak Test Setup 10 Close the pressure release valve on the manometer inflation bulb and slowly increase the pressure to 200 mmHg 1 mmHg 11 Verify the pressure indicated on the manometer remains within 5 mmHg of 200 mmHg for 60 seconds If not either the cuff or hose or both may be defective If the cuff and hose pass this test repeat steps 1 through 7 to try to isolate the leak Repeat the leak test for all cuff and hose combinations to be used with the Monitor Calibration equipment should always be kept dry and free of particulate matter Moisture or foreign substances introduced to the pneumatic system n will likely cause damage to the monitor and or the accessories CAUTION 4 7 2 2 NIBP Calibration Check 1 Using the calibration kit part number 320 246 an adult cuff and air hose and a manometer set up the equipment as shown in Figure 4 1 Connect the hose to the NIBP Parameter Make sure all fittings are tight and that the i
91. ls from interfering with heart rate measurements The ECG signals are sent through a bandpass filter designed to pass pacemaker pulses in preference to ECG signals The filter output is applied to a comparator that asserts an output signal when the input signal exceeds its positive or negative threshold This output signal is used by the controller to blank the ECG signal channel and alert the host to the presence of a pacemaker pulse The filtered ECG signal is routed to the A D converter for transfer to the Main Board The respiration circuit uses the ECG electrodes to measure respiration rate This is achieved by applying an excitation current 61 5 KHz well outside the bandwidth of normal ECG signals generated by a square wave switch onto two selected electrodes The measured voltage drop is filtered the baseline component removed and amplified The analog voltage representing the impedance resp value is routed to A D converter for transfer to the Main Board The ECG PWA provides isolated power to its circuitry using an isolation transformer A transformer driver drives the transformer primary at a frequency of about 350 kHz The voltage of the transformer secondary is full wave rectified using two Schottky barrier diodes The isolated voltage is filtered by capacitors and regulated by a 5V regulator Isolated ground is obtained from the center tap of the transformer The data transferred from the A D converter to the host is isolated using
92. lug the AC cord into a Hospital Grounded AC receptacle A green LED will illuminate on the front of the monitor indicating that an AC source is available Prior to usage it is necessary to charge the monitor for 12 hours This charge calibrates the battery charging circuitry with the charge status of the battery 4 3 DB15 Serial Connection Host Communications Cover DB9 Serial Connector Hinges top edge i i ao pop mer an Battery Fuse Protective Earth Safety Lug External DC Input AC Mains Input 4 4 4 2 2 Set the Date and the Clock The DINAMAP PRO 1000 monitor uses a rotor knob to navigate through the menu systems Rotating the rotor moves the arrow cursor and pressing the rotor makes the selection Power on the PRO monitor using the OFF ON key Choose no when the monitor prompts to admit a new patient Press or turn the rotor to access the main menu Turn the rotor and press to select other system settings option Turn the rotor and press to select go to config mode option Turn the rotor and press yes to continue to Configuration Mode The PRO Monitor will now prompt for the Configuration Mode password EPIA gt ABCDEFGHIJKLMNOPQRSTUVWXY XZ DONE DONE CANCEL Please enter the Service Mode password CANCEL SPACE SPACE BKSPACE BKSPACE 8 Turn the rotor and press to select after each numeral of the password is selected 9 The password to enter the configuration mode is 2 5 0 8 10 Following th
93. mation is also provided about the physical and functional characteristics of the Monitor and how to get assistance in the event the unit fails to function properly Section 2 provides a general overview of the PRO 1000 including user controls external connections and product parameter specifications Section 3 presents principles of operation for the Monitor including an overall system description and principles of operation at the component level Section 4 provides information about periodic and corrective maintenance of the Monitor Procedures include module performance tests and calibration procedures Information is provided to facilitate isolating faults to the subassembly level Section 5 provides component information about the Monitor including disassembly and reassembly procedures parts lists and assembly drawings and electrical schematics 1 1 1 2 MANUAL CHANGES 1 3 If in the normal use of this manual you notice errors omissions incorrect data or if you can suggest comments that may help improve this manual please complete the Publications Change Request form in the back of this manual Submit the form to General Electric Medical Systems Information Technologies Technical Publications 4502 Woodland Corporate Boulevard Tampa Florida 33614 Changes to the Service Manual either in response to user input or to reflect continuing product improvements are accomplished through reissue Changes occ
94. menu Press or rotate the knob to access the PRO 1000 OO x Q freeze m GD trend standby D pINAMAED GE Medical Systems Information Technologies We bring good things to life gemedicalsystems com A PRO 1000 SERVICE MANUAL MIA DINAMAP d DINAMAP PRO 1000 Monitor Service Manual GE Medical Systems Information Technologies We bring good things to life gemedicalsystems com List of Effective Pages Part No Rev Page No Date of Latest Revision 2008072 All Original Oct 2001 U S Patent 5 170 795 U S Patent 4 349 034 U S Patent 5 052 397 U S Patent 4 360 029 U S Patent 4 754 761 U S Patent 4 501 280 U S Patent 4 638 810 U S Patent 4 546 775 U S Patent 4 543 962 U S Patent 5 518 000 U S Patent 5 704 362 Patents Pending CAUTION Federal U S A law restricts this device to sale by or on the order of a health care practitioner The content of this document including all figures and drawings is proprietary information of General Electric Medical Systems Information Technologies provided solely for purposes of operation maintenance or repair of PRO 1000 Monitors Dissemination for other purposes or copying thereof without the prior written consent of General Electric Medical Systems Information Technologies Tampa Florida is prohibited Illustrations may show design models production units may incorporate changes CRITIKON 2001 TAMPA FL 33614 Printed in the
95. nflation bulb valve is closed tightly 2 From the Service Menu Turn and press the rotor to select the NIBP service parameter 3 Turn and press the rotor to select a 0 go to s n PT1 Zero adu 291 eumatic reset pneumatic reset Bem e PT2 Pressure mmHg 0 abort quot frontone PT2 Zero adu 286 neumatic rese cal press zero PT1 Pressure mmHg 0 4 Turn and press the rotor to select evi een o valve close ei inflate on Ser a eres 2420 lt 2702 3082 iat valve close 5 Observe that both PT1 Pressure aurov sepet intet MA lt 0 ee neo ovp select 28672 33183 lt 38796 lt 204 and PT2 Pressure equal initial lg e values of zero mmHg 0 mmHg PT2 Excitation adu 267 lt 286 lt 294 6 Connect the pneumatic hose to the Monitors NIBP port BATTERY 7 Foldthe adult cuff so the index line is aligned with the inner range mark on the inside of the cuff Make sure all fittings are tight and that the valve on the inflation bulb is closed tightly If there is doubt about the integrity of the system perform the leak test paragraph 4 7 2 1 before continuing 8 Close the pressure release valve on the manometer inflation bulb and manually pump up the pressure until the manometer indicates approximately 220 mmHg 4 23 4 24 10 11 Allow the pressure to stabilize for at least a minute Then open the pressure release valve on the manometer inflation bulb
96. nmental Operating Temperature Storage Temperature Operating Humidity Storage Humidity 14 8 in H x 8 7 in D x 13 8 in W 37 0 cm H x 21 8 cm D x 34 4 cm W Less than 12 Ib 9 5 kg 41 F to 104 F 5 C to 40 C 40 F to 158 F 20 C to 60 C 5 to 95 noncondensing 5 to 95 noncondensing Operating Atmospheric Pressure 700 hPa to 1060 hPa Storage Atmospheric Pressure 500 hPa to 1060 hPa Electrical Power Supply The PRO 1000 Monitor can be operated from AC power external DC power or the rechargeable internal battery AC Input Voltage AC Input Frequency AC Input Power AC Power Cable DC Input Voltage DC Input Power Internal Battery Battery Life Charge time internal charger Fuse Battery 120 240 50 60 Hz 60 120 Volt Amperes Detachable 16 gauge 10 ft 3 meters long 18 24 V supplied from a source conforming to IEC 601 1 60 Watts supplied from a source conforming to IEC 601 1 12 Volts nickel metal hydride NiMH 120 minutes 10 minutes using fully charged internal battery under specified load The PRO Monitor typically charges the battery to within 90 capacity within 3 hours 10A 250V slow blow The Monitor may not meet Performance Specifications ANSI AAMI SP 10 if it is stored or used out of environmental specification ranges Monitor shall be capable of operating on battery power for 2 hours minimum NIBP 5 min ECG Resp SpO temp dual channel
97. nnenn nnn 3 3 9 2 NellcorSPO2 cad ut hoec c tc raro ae LE are dai ia 3 3 3 2 2 Cuff Blood Pressure BP and Pulse LLcceecccssese 3 3 3 2 3 Alaris Oral and Rectal Thermometry eese 3 4 3 2 4 ECG with Heart Rate and Respiration eee eee 3 4 3 2 5 Host Communication Portes 3 4 3 3 FUNCIONAL DESCIIDUON WE 3 5 JS De PSU PWAL ii A AAA A AA A AA nt 3 5 3 3 2 Mains Converter Module AAA 3 6 33 30 IB id AAA SAA AT 3 6 394 Keyboard PWA cos 3 7 dido BOT IN EE 3 8 Jub Phe matic LODH esu ou cod eode ARIS pa o qul ie AAA A Ap im 3 8 3 3 7 LCD Assembly iati tdt 3 9 3 9 9 Printer ODUOMAl Msc 3 10 List of Figures 3 1 General System Diagram DEE 3 12 See SECTION 4 GENERAL MAINTENANCE 4 1 INTOGUE LOR EE 4 3 4 2 Configuring the PRO 1000 Monitor for the First Time 4 3 4 2 1 Unpacking and Preparation for Installation nennen 4 3 4 2 2 Set the Date and the Clock i 4 5 4 2 3 Parameter Level Functional Testing 4 6 4 3 Periodi MAILE ner ER 4 7 ASAS FRE s 19T A A AA AGR 4 7 4 3 1 1 Integrity of Cuffs and HOSES e 4 7 4 3 1 2 External DC Supply and Battery 4 7 4 3 1 3 Cleaning of Accessories i 4 7 4 3 1 4 Long Term SIOrage ener ln rar tete oes 4 8 4 32 Annual eie s TEE 4 8 4 4 Care of Storage Batteries isisi iaia 4 9 4 4 1 Procedures for First Use sees 4 9 4427 Batt
98. optocouplers 3 3 5 Keyboard PWA The Keyboard PWA provides access to the basic functions of the PRO monitor The buttons that control each function are integrated with its status LED to form a touch pad front panel LEDs indicate the status of those functions by illuminating green when active and yellow when inactive The exception is the SILENCE button which is red when active The function LEDs are driven by latches on the Main Board The battery LED is continuously yellow when the unit is running on battery and flashes yellow when the battery is charging The AC LED is green when an external power source is present The keyboard is connected to the Main Board via a 36 way board to board connector 3 3 6 Pneumatic Control The pneumatic functional block includes the control signal decode logic the valve driver circuitry the pump driver circuitry pump current measurement circuit and a safety interlock circuit There are two transducers on board PT1 and PT2 PT1 is used for main readings while PT2 confirms readings and is used to derive overpressure signals The following signals are multiplexed into a 16 bit SAR A D converter via an 8 1 channel DG408 e PT1A the output of the measurement pressure sensor after amplification and filtering by means of a passive 1KHz low pass anti alias filter e PT1B the output of the measurement pressure sensor after amplification and filtering by means of a passive 20Hz low pass anti alia
99. opup window appears Enter the name for this default Rename or accept the default table and choose DONE Your data will be saved Repeat steps 1 through 7 for configuring the remaining five default tables D Jop E WN How to Bat Configuration Mode 1 Moose other system settings from the Gonfiguration Menu 2 Choose exit config mode 3 A popup window appears This will edt configuration mode All unsaved changes will be lost Are you sure you want to do this Choose Yes 4 The system will autorratically restart in patient monitoring mode Warming All monitoring will cease when entering configuration mode Do not enter this mode if actively monitoring a patient eyeuoeu pue oujeiped npe Joj awues ay si Bumes ynejep A10 28j ayy paijioeds jou y E oujeiped2g INpe y E PO 10 09 S 0SINd HH PAIS e AA on 831nos uo peseq 10109 eBueyo e 1 3Q woud suueje ywr sumes peoueApy sul jsnipy eunjo SHO 1snipv oLINOS Jo9 og esind NH dnjas jinejop ay pues amp eyep juened snolnald ares sbumes byuog SAB SIENA MAIA se Aejdsiq USaJos UleW UO SpuaJ MelA Spent luy 9 8 SIENA MOIA oOo TI 9B s se fejdsiq Oooo DM juud oj sudeJb esoou Sspuo1j JUdI Edg MaIA CC D Jequinu yun Jejue CC T n Jequinu peg Jejue ad juoned o 9 3 A sBumas juened asooyo e quoned HUPY cke 1L LE Wut UU SU eouels wey EU J L 0 ODl mo aunoa uey sbumes Gyuog A ll
100. or from an internal NiMH rechargeable battery 12VDC The PSU will automatically select the power source based on the following priority eValid EXTERNAL DC input 16VDC If greater than or equal to output of Mains Converter eValid AC MAINS input eValid NiMH battery The PSU PWA converts the selected power source into the following main voltages eVRAW1 14 4VDC eVRAW2 14 4VDC eVBAT The 12V printer supply voltage is down converted from VRAW1 and maintained by a boost regulator to 12V when VRAW1 falls under 12V ANA is regulated to 14 4VDC from VRAW2 by a MAX668 step up controller AUX 12V is down 3 5 3 6 converted from ANA using an LM340 regulator ANA is down converted from VRAW2 to 14 4VDC using a LM2594 step down regulator VBAT is the battery voltage protected by a 500mA auto reset fuse It is also used to power the failsafe alarm circuits on the Main Board The PSU PWA contains firmware that reports the charge status of the battery to the secondary processor on the main board The secondary processor will charge the battery at the fastest rate allowable while keeping the PRO monitor power consumption under 60W The fan control circuitry is located on the PSU PWA and is powered by VRAW1 The circuitry is thermally controlled and will start the fan when the thermistor TH1 reaches approximately 50 C The host communication port control circuitry selects whether channel 2 is routed to the Comms connector DB 9
101. or the wireless connector DB 15 If channel 2 is routed to the wireless connector it can be configured for RS 232 or inverted TTL signals Channel 1 is only available on the Comms connector as inverted TTL 3 3 2 Mains Converter Module The Mains converter module is an AC Mains to DC converter The module receives AC power from the mains input connector When AC INPUT is applied to the module the module AC DC Converter changes the AC INPUT supply via rectifier circuit to a high voltage DC The DC power is then routed through a high frequency switching converter and regulated to 24 VDC This supply is connected to the PSU PWA for further regulation The PSU only selects this source when DC Output is greater than 16VDC AND greater than the EXTERNAL DC input voltage 3 3 3 Main Board The Main Board is configured with Flash ROM EEPROM RAM 16 bit ADC Primary Processor Secondary Processor SPO2 Module and Temperature Module The Primary Processor operates from a 4 9152 MHz crystal stepped up to 49 152 MHz The Primary Processor services and controls the RAM Flash ROM EEPROM the physiological interface modular devices and display backlighting The Secondary Processor monitors the power supply circuit controls the power on off sequences performs watchdog task on itself and the Primary Processor monitors signals within the NIBP module and monitors board temperature The Secondary Processor monitors the power supply circuit and controls the
102. ous NIBP cycles OFF ON Turns Monitor off and on Silence Temporarily silences alarms acknowledges alarming crisis conditions Standby Enters and exits standby mode Main Closes the menu system and takes you back to the main screen Trend Enters and exits trends view patient trends data This hardkey can be configured through config mode two ways to view mini trends or to view full trends Freeze Captures up to 16 8 seconds of waveforms on the screen seconds vary depending on the chosen sweep speed Record Prints with a single press for a snapshot timed recording and a double press for a continuous recording of the chosen waveforms 2 5 Optional Components 2 6 Note Interconnected equipment must be installed by a qualified service person Symbols CE Ris IOC d L S 3 a al e Z REF 10101 IOIOI Coe CE Mark External Communications Port Connector Attention consult accompanying documents Type CF applied part Battery in use Canadian Standards Association Storage temperature External AC or DC power indicator External DC power input External AC power input Keep away from heat This way up Keep dry Fragile handle with care Serial number Catalog number Predictive temperature Functional earth terminal ground lug Serial Port 1 Serial Port 2 Ethernet Connector 2 4 HOST PORT CONNECTORS BENEATH REAR PANEL All host port signals
103. provide a general system interface relationship The general block diagram is located in Figure 3 1 The PRO monitor is a portable unit that receives input power from an external AC source external DC source or internal rechargeable battery When the ON OFF button is pressed the Main Board is brought out of a sleep mode and turns on the power regulators The power regulators provide conditioned power from one of the input power sources AC Mains External DC or the internal battery The regulated power is routed to the Printed Wiring Assemblies PWAs via the cable harnesses Once the PRO monitor is energized a self test is performed The self test automatically tests the main functions of the PRO monitor Failure of the self test will set the PRO monitor into a fail safe mode with an audio alarm Under normal operating condition the PRO monitor is ready to monitor the patient vital signs using five external attachments two temperature probes rectal and oral SPO2 sensor ECG leads and cuff Interface with a central station or other device is accomplished through the 9 pin host communication port or 15 pin wireless communication port on the back of the PRO monitor 3 2 1 Nellcor SPO2 When the SPO2 sensor is attached to the SPO2 connector and patient it senses the heart rate and oxygen saturation These analog signals are routed to the SPO2 PWA The analog signals are analyzed on the SPO2 PWA The results are digitized and sent to the M
104. roller The Secondary Alarm is a hardwired alarm that will sound in the event of a FAILSAFE condition Pressing the OFF key can immediately reset this alarm although it will eventually time out after about 10 minutes 3 3 4 ECG PWA The ECG PWA accepts signals from a 3 electrode cable for processing The 3 electrode cable provides a single lead configuration with Lead I Lead II or Lead III available The cables specified by Critikon are shielded and provide 1k Ohm series safety resistors internal to the cable that are part of the current limiting defibrillator protection circuitry Gas surge arrestors on the PWA provide lead to lead defibrillator protection In addition a passive R C network located on this PWA provides the first stage of high frequency filtering for EMC and ESU interference rejection Two leads are selected for ECG measurement by a multiplexer LSO LS1 signal controlled and passed to a differential amplifier A second multiplexor selects the third electrode the one not sent to the differential amplifier and drives 3 7 3 8 the signal with an amplified and inverted version of the common mode voltage of the two measuring electrodes This feedback action cancels most of the common mode signal applied to the differential amplifier The output signal from the differential amplifier is then routed to bandpass filter and pacemaker detection circuit The ECG PWA uses the pacemaker detection circuit to prevent pacemaker signa
105. s complete name address and phone number e FAX number e Your purchase order number e Your account number 1 3 6 Replacement Accessories Replacements such as hoses sensors etc must be purchased from General Electric Medical Systems at 1 877 274 8456 Please have the 4 digit or 6 digit Reorder Product Code of the item you wish to order your purchase order and account number available 1 4 PRODUCT DESCRIPTION The Monitor and storage batteries are described below Refer to Table 1 1 for specifications 1 4 1 General Description The DINAMAP PRO 1000 is designed for patient monitoring in acute care settings such as critical care emergency room radiology labor and delivery and operating room It allows the clinician to view record and recall clinical data derived from each parameter This data includes heart rate respiration rate oxygen saturation noninvasive blood pressure and temperature Alarm limit conditions are also detected The recorder provides numeric and waveform printouts of monitored data Up to 2 waveforms can be traced simultaneously Each monitor can monitor one patient at the bedside Patient sensor connections are made at the side of the unit and network and device connectors are at the rear Indicators for external DC operation from AC mains battery operation and battery charging are at the front of the unit At the time of publication the available functioning parameters included the follow
106. s filter e PT2 the output of the confirmation over pressure sensor after amplification e TH REF the voltage that the amplified PT2 has to attain before the safety circuit cuts in e PT1 REF the reference voltage that provides an offset voltage for the PT1 amplifier e PT2 REF the reference voltage that provides an offset voltage for the PT2 amplifier e PUMPC the pump current e VBAT 1 11 ratio of VBAT voltage The 16 bit value out of the ADC is available on the data bus at D 15 0 Control signals for the board are derived via four different sources direct control from outputs of the processor controls signal derived from processor address write commands which are stored in an addressable latch signals derived from the watchdog timer and signals generated by the overpressure functional block The four valve control signals and the pump control signal are derived from the write address and stored in an addressable latch Latch values are cleared by application of system RESET generated by the processor Each latch signal is individually gated in a programmable logic device 16V8 with the fail safe input signal watchdog timer and the overpressure latch output to ensure pressure is removed from the patient cuff should either overpressure or processor failure condition occur A cross coupled latch for overpressure is included in the programmable logic device It is set by the occurrence of an overpressure condition existing for a
107. station or remote alarm device Signals can be sent to the PRO monitor to initiate blood pressure determinations and other functions Patient data can also be retrieved through this port The DB9 connector should be used with Critikon Adapters ONLY The host port signals on the DB15 connector are NON ISOLATED and should be connected to equipment conforming to IEC 601 1 1 ONLY Where isolation of data communication is required the Critikon isolated level converter should be used If external alarm control is required Critikon part number 487208 Isolated Remote Alarm Cable Assembly should ALWAYS be used Please refer to the Information Sheet included with the isolated remote alarm cable for operational details Note When using remote alarm the PRO monitor should be considered the primary alarm source The secondary alarm is used for secondary purposes only 3 3 FUNCTIONAL DESCRIPTION The following paragraphs provide the functional interface relationship The PRO monitor contains a number of electrical amp electro mechanical assemblies These assemblies are e Power Supply Unit PSU PWA e PSU Module e Main Board e Keyboard PWA e ECGPWA e Pneumatic control device e Liquid Crystal Display LCD Assembly e Printer PWA w printer optional 3 3 1 PSU PWA The PSU supplies regulated DC power to PRO monitor The PSU PWA is designed to operate from the output of the AC MAINS PSU module 24VDC EXTERNAL DC 24VDC to 28VDC source
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109. urring between reissues are addressed through Change Information Sheets and replacement pages If a Change Information Sheet does not accompany your manual the manual is correct as printed SERVICE POLICY The warranty for this product is enclosed with the product in the shipper carton All repairs on products under warranty must be performed or approved by Product Service personnel Unauthorized repairs will void the warranty Only qualified electronics service personnel should repair products not covered by warranty 1 3 1 Extended Warranties Extended warranties may be purchased on most products Contact your Sales Representative for details and pricing 1 3 2 Assistance 1 2 If the product fails to function properly or if assistance service or spare parts are required contact Customer Support Before contacting Customer Support it is helpful to attempt to duplicate the problem and to check all accessories to ensure that they are not the cause of the problem If you are unable to resolve the problem after checking these items contact General Electric Medical Systems Information Technologies Prior to calling please be prepared to provide e product name and model number e acomplete description of the problem If the repair parts or service are necessary you will also be asked to provide e the product serial number e the facility s complete name and address e a purchase order number if the product is to need of repair or
110. w of numbers is displayed at the bottom of the screen Turn the rotor and press to select after each numeral is selected 5 The password to enter service mode is 2213 Following completion of the password entry turn the rotor and press to select DONE 6 In the process of entering the Service Mode the PRO 1000 Monitor will reset Successful Entry into Service Mode can be noted by the Service Menu title display on the upper left side of the display NOTE The service mode can also be entered directly from a cold start by pressing and holding the following three keys until full power up OFF ON AUTO BP ands GO STOP To make any changes to the Service Menu the password will still have to be entered press the rotor to enter service password 7 Atthis point the Service Mode main screen should be present in the main display as shown below The service menu service parameters area displays a list that corresponds to the number and type of parameters that have been detected by the Monitor If the service mode was entered directly as described in the NOTE above enter service password appears above the service parameters on the service menu If recalibration of any component is required the password MUST be entered as described in steps 5 and 6 before any changes to calibration can be made Battery Health gt 85 External Supply available TRUE enter service password External Supply Sufficient to Charge TRUE service parameters
111. y NOTE Refer to NELLCOR sensor specifications When sensors are used on neonatal subjects as recommended the specified accuracy range is increased by 1 digit to account for the theoretical effect on oximeter measurements of fetal hemoglobin in neonatal blood e g N 25 accuracy on neonates is 3 rather than 2 2 6 7 ECG Leads Available 3 lead configuration I I III MCL 1 QRS amplitude 0 2 to 5 0 mV QRS duration range 15 to 200ms does not reject 10 ms 1mV QRS Heart rate accuracy 10 to 300 adult 10 to 350 neonate beats min 3 beats min or 3 of reading whichever is greater Heart rate resolution 1 beat min Bandwidth Display Recorder 0 5 to 40 Hz 0 05 to 40 Hz 0 05 to 100 Hz Standardizing voltage 1 mV marker Common mode rejection 1 mV RTI or 10 mm peak to peak maximum displayed noise allowed with 20 Vrms 50 60 Hz input Input impedance gt 2 5 MO 10 Hz 60 Hz tolerance Up to 10 mV with artifact detector off Up to 300puV at 1 mV QRS and artifact detector on Pacemaker detection rejection Pacer amplitude Pacer width 2 mV to 700 mV 0 1 ms to 2 ms With under or overshoot of Pacer amplitude Pacer width 2 mV 70 ms duration 2 mV to 700 mV 0 1 ms to 2 ms Tall T wave rejection 100 Lead off sensing current lt 0 1 UA DC signal leads lt 1 uA DC driven lead Time to alarm Hi

PRO 1000 SERVICE MANUAL - Frank`s Hospital Workshop

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